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Entry  Sat Jun 28 15:28:22 2025, Carsten., Uwe , Runs, Runs with new scan range 
22:10 SIS Trafo GS09DT scale was changed to 4e8 (not just the lassie monitor)
23:50 Ausfall ESR: GE01 KP01 bis KP05 und KP22 bis KP24; Korrekturelement: GE02KX6 und GE01KX2; beam loss during measurement
01:45 reser press air Scrapers: GE02DD2_G (sc8,11); GE02DS03HG(sc7,8,11); GE01DD2IG(was sc7,10,11)(now7,8,11)
Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok TE slits comments
15:25 >20000 2.5e9 30 - - - 260 234 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7 comment: detector started too late 15:52 15200 2.5e9 30 - - - 261 235 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7 comment: SIS injection fluctuating 16:09 6000 3.3e9 30 - - - 262 236 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7
comment: accumulation curve in ESR much flatter 16:31 5800 3.0e9 30 - - - 264 237 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7
comment: data not in online DAN; lmd-file: DAQ2_0263.lmd is empty 16:47 10000 3.0e9 30 - - - 265 238 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7
comment: okay 17:10 15500 3.0e9 35 - - - 266 239 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7
comment: okay 17:11
comment: HHT access 17:20
comment: beam back, but problems with SIS intensity 17:35
comment:intensity good, again. 3x10**9 particles in SIS 17:45 16000 3.2e9 35 - - - 267 240 550.610 - 548.110 501 15 1 yes yes TE slits -7 +7
comment: okay 18:11 4800 3.0e9 40 - - - 268 241 550.610 - 548.110 501 15 1 yes yes TE slits -6 +6
comment: data not in online DAN 19:00 4650 3.0e9 40 - - - 269 241 550.610 - 548.110 501 15 1 yes yes TE slits -9 +5.5
SIS ions low for first 8 to 10 injections comment: okay


18:30 SIS intensity dropped to 1x10**8 particles
18:45 SIS intensity recovered to 3.75x10**9 particles


Starting from 18:45 slits are set asymmetric:
The dipole magnet TE4MU1 which is in front of our TE slit pair turns to the right. Thus, lower momentum ions are also on the right side. 229Pa89+ has a higher Z=91 than 229Th89+ (Z=90).
Therefore, in the thick target Z=91 , Pa looses more energy than 229Th. With the asymmetric setting we try to further minimize Pa contaminants.
Entry  Sat Jun 28 06:29:58 2025, Stefan, Simon, Konstantin, Runs, Morning shift 28.06. 
6:30 Problem with ion source, on-call service is called
7:30 There is a short in the ion source and it needs to be changed. Expected down time about 2h
10:30 Ion source was successfully changed, but while ramping up the source a power supply failed. Next on-call service is on their way to GSI.
13:00 ions are back


We changed the dye as the laser intensity was quite low. That didnt help, so Konstantin came in to change the dye cell. That did help.

No scans during morning shift.
Entry  Fri Jun 27 22:14:35 2025, Anton, Finn, Carsten, Runs, Runs night shift 27.06. 28.06 
22:10 SIS Trafo GS09DT scale was changed to 4e8 (not just the lassie monitor)
23:50 Ausfall ESR: GE01 KP01 bis KP05 und KP22 bis KP24; Korrekturelement: GE02KX6 und GE01KX2; beam loss during measurement
01:45 reser press air Scrapers: GE02DD2_G (sc8,11); GE02DS03HG(sc7,8,11); GE01DD2IG(was sc7,10,11)(now7,8,11)
Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok comments
22:08 17000 2.5e9 30 104524 104527 104528 205 233 551.91 - 549.41 501 15 1 yes yes TE slits -6 +6
22:27 7200 4e8 30 104524 104527 104528 206 234 551.91 - 549.41 501 15 1 yes yes TE slits -6 +6 ! small peak on right side, not good scraped
23:19 6000 2.5e9 30 104524 104527 104528 207 235 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
23:35 15000 2.3e9 30 104524 104527 104528 208 236 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
23:47 00 2.3e9 30 104524 104527 104528 209 237 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \ scan not compete, beam loss during measurement
00:17 6200 2.7e9 30 104524 104527 104528 210 238 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
00:45 6400 2.6e9 30 104524 104527 104528 211 239 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
01:00 5100 2.75e9 30 104524 104527 104528 212 240 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
01:15 5200 2.6e9 30 104524 104527 104528 213 241 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
01:45 4900 2.3e9 30 104524 104527 104528 214 242 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \bigger peak on right side, badly scraped
01:58 12600 2.25e9 30 104524 104527 104528 215 243 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
02:13 12000 2.4e9 30 104524 104527 104528 216 244 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
02:28 13900 2.45e9 30 104524 104527 104528 217 245 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \small peak on right side, badly scraped
02:48 17000 2.45e9 30 104524 104527 104528 218 246 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
02:58 13500 2.45e9 30 104524 104527 104528 219 247 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
03:13 14900 2.5e9 30 104524 104527 104528 220 248 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
03:27 5200 2.5e9 30 104524 104527 104528 221 249 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
03:42 13000 2.5e9 30 104524 104527 104528 222 250 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
04:08 14300 2.9e9 30 104524 104527 104528 223 251 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
04:23 15400 2.9e9 30 104524 104527 104528 224 252 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
04:38 13800 2.9e9 30 104524 104527 104528 225 253 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
05:03 12800 2.5e9 30 104524 104527 104528 226 254 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
05:23 3900 2.6e9 30 104524 104527 104528 227 255 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
05:38 11200 3.e9 30 104524 104527 104528 228 256 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
05:53 3900 2.5e9 30 104524 104527 104528 229 257 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped
06:08 11700 low.intensity 30 104524 104527 104528 230 258 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7 \badly scraped

During whole night shift scraping right peak did not work consistently. Remaining intensity varied from similar peak height compared to torium down to about 20%.
Entry  Fri Jun 27 14:23:39 2025, Nils, Wilfried, Carsten, Julian, Runs, Runs afternoon shift 27.06. 
15:30 We have a break due to an issue at UNILAC (quadrupole failed). Also radiation safety interlock was triggered at the fragment separator. This also pushed a faradaycup into the ESR (GE01DC3VP).
Just before the issue during the last bunching, the peak was misaligned to the marker in the Schottky. The marker was sitting on the right flank. So the electron-cooled 229Th did not match with the bunching frequency anymore. We are preparing to adjust the cooler voltage to fix this. For some reason the frequency recovered and is back to its original position. However, our accumulations do not seem to work as well as before, we stagnate much earlier and at a much lower level.

15:50 Beam is back, Carsten is still investigating the drop in intensity we saw before the UNILAC failure.

17:15 TE slits were on -8 and +8, opening to -11 and +11, no change to acquisition pattern, something is still wrong

18:00 We were locked out by HHT people for 30+ mins

18:27 We had to call in ESR support

Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok comments
14:24 15800 2.74 e9 30 104524 104527 104528 196 224 551.91 - 549.41 501 15 1 yes yes Carsten optimizing beam at HKR with ESR colleagues
14:24 6800 1.16 e9 30 104524 104527 104528 197 225 551.91 - 549.41 501 15 1 yes yes Carsten is back in measurement hut
16:30 1100 1.1 e9 40 104524 104527 104528 198 226 551.91 - 549.41 501 15 1 yes yes Searching for reason for small particle number
17:00 1200 0.5 e9 30 104524 104527 104528 199 227 551.91 - 549.41 501 15 1 yes yes
19:57 7800 1e9 30 104524 104527 104528 200 228 551.91 - 549.41 501 15 1 yes yes Restarting some things at ESR
20:16 6800 1.5e9 30 104524 104527 104528 201 229 551.91 - 549.41 501 15 1 yes yes Restarting some things at ESR
20:41 7200 1.5e9 30 104524 104527 104528 202 230 551.91 - 549.41 501 15 1 yes yes Restarting some things at ESR
21:28 6000 2.65e9 30 104524 104527 104528 203 231 551.91 - 549.41 501 15 1 yes yes
21:47 6600 2.7e9 30 104524 104527 104528 204 232 551.91 - 549.41 501 15 1 yes yes
22:08 17000 2.5e9 30 104524 104527 104528 205 233 551.91 - 549.41 501 15 1 yes yes TE slits -7 +7
Entry  Fri Jun 27 11:21:25 2025, Esther, Konstantin, DAQ, Timing  
We cross-checked the timing. Laser pulse is detected at bins 136 (PD-North) and 171 (PD-south), respectively. Therefore, the laser puls is in the electron cooler at 153.5. The revolution period corresponds to 3e8Hz / 1.54315MHz = 194. 
The ion bunch must travel 2.5m more than the half of the circumference (108.3m). Taking this into account, the ion bunch must be detected (0.5 + 2.5 / 108.3) * 194 = 101.5 bins later (meaning less) than 153.5.
Finally, we are happy that the timing is still perfect, since the ion bunch arrives at 52.
Entry  Fri Jun 27 06:55:45 2025, Esther. Konstantin, Laser, Laser-ion overlap 2025-06-27_06-52-01-807.png2025-06-27_07-12-27-135.png2025-06-27_07-32-28-599.png2025-06-27_07-51-52-620.png
We cross-checked the laser-ion superposition by using the T-scrapers. We did it only after the scans in order to do not change the duty cycle by much. Attachements are in the order of the measurements compiled in the table.

motorion beam position (mm) from inside
GECEDS1VU -0,5
GECEDS1HA -4
GECEDS2VU 0.9
GECEDS2VU 0


Still looks fine to us.
Entry  Fri Jun 27 06:13:02 2025, Esther, Konstantin, Runs, Early shift - data taking 
Notes:
1. TE slits at -10 and +10
2. SIS intensity unstable until about 9:00 after that it became much more stable
3. brief interruption between 09:30 and 10:03 due to interlock issue at SIS

Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok comments
06:15 16300 1.5-3.5 e9 30 104522 104526 104526 172 199 551.91 - 549.41 501 15 1 yes yes
06:30 13500 1.5-3.5 e9 30 104522 104526 104526 173 200 551.91 - 549.41 501 15 1 yes yes
06:44 4000 1.5-2 e9 30 104522 104526 104526 174 201 551.91 - 549.41 501 15 1 yes yes beam scraped vertically with scraper 1 after end of laser scan (see entry 66), scraper left in but tilted to allow for injection
07:05 14800 2-3.5 e9 30 104522 104526 104526 175 202 551.91 - 549.41 501 15 1 yes yes beam scraped horizontally with scraper 1 after end of laser scan (see entry 66), scraper 1 moved back out
07:25 14000 1.1-2.6 e9 30 104522 104526 104526 176 203 551.91 - 549.41 501 15 1 yes yes beam scraped horizontally with scraper 2 after end of laser scan (see entry 66), scraper 2 left in but tilted to allow for injection
07:44 4200 1-2.5 e9 30 104522 104526 104526 177 204 551.91 - 549.41 501 15 1 yes yes beam scraped horizontally with scraper 2 after end of laser scan (see entry 66), scraper 2 moved back out
08:12 5700 1-2.5 e9 30 104522 104526 104526 178 205 551.91 - 549.41 501 15 1 yes yes !!file in DAQ1 not closed after end of scan!!; ~5 injections missing because nothing came from SIS
08:27 16000 1.5-3 e9 30 104522 104526 104526 178 206 551.91 - 549.41 501 15 1 yes yes !!file in DAQ1 still open from last scan!!
08:44 11700 1.5-3 e9 30 104522 104526 104526 179 207 551.91 - 549.41 501 15 1 yes yes
09:00 15600 2.6-3 e9 30 104522 104526 104526 180 208 551.91 - 549.41 501 15 1 yes yes
09:24 6500 2.8 e9 30 104522 104526 104526 181 209 551.91 - 549.41 501 15 1 yes yes
10:13 14600 2.2 e9 30 104522 104526 104526 182 210 551.91 - 549.41 501 15 1 yes yes
10:31 183 211 BAD FILES: ESR not stopped in SC9, injection during laser scan
10:39 14500 2.6 e9 30 104522 104526 104526 184 212 551.91 - 549.41 501 15 1 yes yes
10:55 15400 2.3 e9 30 104522 104526 104526 185 213 551.91 - 549.41 501 15 1 yes yes
11:11 15500 2.6 e9 30 104522 104526 104526 186 214 551.91 - 549.41 501 15 1 yes yes
11:27 15800 2.5 e9 30 104522 104526 104526 187 215 551.91 - 549.41 501 15 1 yes yes
11:41 5200 1.4-2.6 e9 30 104522 104526 104526 188 216 551.91 - 549.41 501 15 1 yes yes
11:56 16500 2.6 e9 30 104522 104526 104526 189 217 551.91 - 549.41 501 15 1 yes yes
12:12 15000 2.9 e9 30 104522 104526 104526 190 218 551.91 - 549.41 501 15 1 yes yes
12:27 15000 2.8 e9 30 104522 104526 104526 191 219 551.91 - 549.41 501 15 1 yes yes
12:44 15800 2.9 e9 30 104522 104526 104526 192 220 551.91 - 549.41 501 15 1 yes yes
13:21 5400 2.3 e9 30 104522 104526 104526 193 221 551.91 - 549.41 501 15 1 yes yes
13:42 4800 2.6 e9 30 104522 104526 104526 194 222 551.91 - 549.41 501 15 1 yes yes
13:59 6200 2.6 e9 30 104522 104526 104526 195 223 551.91 - 549.41 501 15 1 yes yes
Entry  Thu Jun 26 22:51:04 2025, Hendrik, Finn, Runs, Nightshift data runs 
After the scan at 22:04 teh FCU new was new calibrated. For this MEdusa was stopped and reopened in the laser lab. This stops the Labview server, and as a consequence the the connection to the MBS was lsot. Then, MBS needs to be restarted and the online data is cleared. Such an intervention should avoided as good as possible.
A pratical solution for beamtimes with such long data taking is still pending.
When trying to restart MBS MBS completlz hung up also resl etc did not work. Crate powered down and restarted.

23:10 Quadrupole magnet stopped working, lost beam in ESR. Contacted on-call ESR service

Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok comments
0:15 8000 1.5-3.5 e9 30 104522 104526 104526 150 177 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
0:28 20900 1.5-3.5 e9 30 104522 104526 104526 151 178 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
0:59 19000 2.3-2.7 e9 30 104522 104526 104526 152 179 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
1:14 14500 1.5-3.5 e9 30 104522 104526 104526 153 180 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
1:30 19800 1.5-3.5 e9 30 104522 104526 104526 154 181 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
1:45 18000 1.5-3.5 e9 30 104522 104526 104526 155 182 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
2:01 6600 1.5-3.5 e9 30 104522 104526 104526 156 183 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
2:18 14500 1.5-3.5 e9 30 104522 104526 104526 157 184 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
2:36 14700 1.5-3.5 e9 30 104522 104526 104526 158 185 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
2:45 6000 1.5-3.5 e9 30 104522 104526 104526 159 186 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
3:00 5500 1.5-3.5 e9 30 104522 104526 104526 160 187 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
3:17 5200 1.5-3.5 e9 30 104522 104526 104526 161 188 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
3:34 14300 1.5-3.5 e9 30 104522 104526 104526 162 189 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
3:50 17200 1.5-3.5 e9 30 104522 104526 104526 163 190 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
4:07 5000 1.5-3.5 e9 30 104522 104526 104526 164 191 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
4:22 16500 1.5-3.5 e9 30 104522 104526 104526 165 192 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
4:39 14000 1.5-3.5 e9 30 104522 104526 104526 166 193 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
4:55 17000 1.5-3.5 e9 30 104522 104526 104526 167 194 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
5:12 16500 1.5-3.5 e9 30 104522 104526 104526 168 195 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
5:26 14000 1.5-3.5 e9 30 104522 104526 104526 169 196 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
5:43 13100 1.5-3.5 e9 30 104522 104526 104526 170 197 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
5:56 16500 1.5-3.5 e9 30 104522 104526 104526 171 198 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
Entry  Thu Jun 26 21:27:34 2025, Carsten, Jan, Simon, Calibration, Timing Bildschirmfoto_timing_new_2025-06-26_19-00-04.png 
We checked the timing (before the start of the measurement cycle documented below).
Timing and measurement window are attached.
Entry  Thu Jun 26 19:01:46 2025, Carsten, Jan, Simon, Runs, Late shift 26.06. 

Scan parameters:
scan range551.91 - 549.41
positions501
step width0.005nm
advance after15 rising edges
iterations1
rev. frequency 1.54315e6




Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position mesytec rate ok comments
19:15 23000 1.5-3.5 e9 33 104522 104526 104526 142 170 551.91 - 549.41 501 15 1 yes yes TE slits at -10 and +10, SIS intensity unstable
19:41 19000 3.3e9 30 104522 104526 104526 143 171 551.91 - 549.41 501 15 1 yes yes TE slits at -7 and +7
20:08 17500 3.3e9 25 104522 104526 104526 144 172 551.91 - 549.41 501 15 1 yes yes -
20:24 7000 3.3e9 25 104522 104526 104526 145 173 551.91 - 549.41 501 15 1 yes yes low Part. Det. Int maybe due to wrond position of part. det.
21:19 7000 3.5e9 25 104522 104526 104526 146 174 551.91 - 549.41 501 15 1 yes yes TE slits at -8 and +8
21:40 14000 3.3e9 25 104522 104526 104526 147 175 551.91 - 549.41 501 15 1 yes yes adjusted particle detector position
22:04 19500 3.3e9 40 104522 104526 104526 148 176 551.91 - 549.41 501 15 1 yes yes


After the scan at 22:04 teh FCU new was new calibrated. For this MEdusa was stopped and reopened in the laser lab. This stops the Labview server, and as a consequence the the connection to the MBS was lsot. Then, MBS needs to be restarted and the online data is cleared. Such an intervention should avoided as good as possible.
A pratical solution for beamtimes with such long data taking is still pending.
When trying to restart MBS MBS completlz hung up also resl etc did not work. Crate powered down and restarted.
Entry  Thu Jun 26 18:13:17 2025, Jan, Carsten, Detectors, PMT voltages & thresholds  
current settings of PMT voltages and thresholds at the CAEN CFD:

PMT South   [HV ch2: 2700V]  [CFD ch0: 8]

PMT Middle  [HV ch1: 2850V]  [CFD ch1: 8]

PMT Nord    [HV ch3: 2850V]  [CFD ch2: 9]
Entry  Wed Jun 25 05:53:54 2025, Rodolfo, Laser, FCU  
Cobra's FCU was recalibrated. Table saved as FCU_547-554_RS_2024-06-25.fcu.
Entry  Tue Jun 24 22:24:36 2025, Carsten, Finn, Hiroshi, Esther, Rodolfo, Runs, Data taking (night shift 24.06.) 

Scan parameters:
scan range551.91 - 549.41
positions501
step width0.005nm
advance after15 rising edges
iterations1
rev. frequency 1.54315e6


Notes:
1. NTCAP was only started after the fourth scan. The file timestamp is '2025-06-25_00-02-08'.
2. Beam was lost at 03:45 and could not be recovered by the operators. On-call service was called but they have to replace a part, current estimate is 2-3 hours.

Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position comments
22:39 13500 2.4e9 60 104510 104514 104514 128 157 551.91 - 549.41 501 15 1 yes 60 injections, cooling time (SC 7) 28s -> 32s
23:00 11500 2.4e9 45 104510 104514 104514 129 158 551.91 - 549.41 501 15 1 yes 45 injections
23:20 10500 2.4e9 45 104510 104514 104514 130 159 551.91 - 549.41 501 15 1 yes
23:44 9100 2.4e9 45 104510 104514 104514 131 160 551.91 - 549.41 501 15 1 yes
00:05 14000 2.4e9 60 104510 104514 104514 132 161 551.91 - 549.41 501 15 1 yes back to 60 injections
00:28 14300 2.4e9 75 104510 104514 104514 133 162 551.91 - 549.41 501 15 1 yes 75 injections, mesytec channel threshold 0-3 set 255
01:26 13200 2.4e9 75 104510 104514 104514 134 163 551.91 - 549.41 501 15 1 yes there was an interruption at the source, took some time to get the beam back
01:48 10500 2.3e9 75 104510 104514 104514 135 164 551.91 - 549.41 501 15 1 yes
02:10 12400 2.3e9 75 104510 104514 104514 136 165 551.91 - 549.41 501 15 1 yes
02:33 9600 2.4e9 75 104510 104514 104514 137 166 551.91 - 549.41 501 15 1 yes
02:55 10000 2.4e9 75 104510 104514 104514 138 167 551.91 - 549.41 501 15 1 yes
03:18 9600 2.4e9 75 104510 104514 104514 139 168 551.91 - 549.41 501 15 1 yes
Entry  Tue Jun 24 18:49:18 2025, Carsten, Rima, Nils, Simon, Runs, Second attempt (Late shift 24.06.) 

Scan parameters:
scan range551.91 - 549.41
positions501
step width0.005nm
advance after15 rising edges
iterations1
rev. frequency 1.54315e6



Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB K250 cooler-HV PTB red cooler-HV orange LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position comments
19:03 14800 2.7e9 60 104510 104514 104514 118 147 551.91 - 549.41 501 15 1 yes TE beamline slits -30 +30
19:22 14900 2.7e9 60 104510 104514 104514 119 148 551.91 - 549.41 501 15 1 yes -
19:40 14500 2.7e9 60 104510 104514 104514 120 149 551.91 - 549.41 501 15 1 yes TE beamline slits -20 +20
19:58 13800 2.0e9 60 104510 104514 104514 121 150 551.91 - 549.41 501 15 1 yes -
20:18 10800 2.1e9 60 104510 104514 104514 122 151 551.91 - 549.41 501 15 1 yes -
20:37 10100 2.1e9 60 104510 104514 104514 123 152 551.91 - 549.41 501 15 1 yes -
20:56 10500 2.1e9 60 104510 104514 104514 124 153 551.91 - 549.41 501 15 1 yes -
21:15 9000 2.2e9 60 104510 104514 104514 125 154 551.91 - 549.41 501 15 1 yes after this we change to 45 injections to give more cave access to HHT
21:37 11500 2.3e9 45 104510 104514 104514 126 155 551.91 - 549.41 501 15 1 yes small pause for HHT
22:13 13400 2.5e9 45 104510 104514 104514 127 156 551.91 - 549.41 501 15 1 yes small pause for HHT, cooling time in SC7 increased from 20s to 28 s
Entry  Tue Jun 24 12:25:34 2025, Carsten, Detectors, PMT behaviour - noise / PMT voltages / CFD Threshholds / CAEN Power supply (broken channel resetted) 
In position North there is still the "old" 9423B PMT that draws quite some current.
On this detector threre is also some quite substantial noise. Very likely the base is not ok any more. Noise was much lesss for the other two PMTs.
Since position NORTH is the position with the largest sold angle, if there is another break from the accelerator we should exchange it against SOUTH.
It was also difficult to ramp up PMT north ; and I thought that againa channel broke (showing UnV not OVC (Overcurrent)). However, the PS is resetted if
you switch of the whole crate (aka switch the PS off). Before doing so, please ramp down the other channels slowly as intended.

Please leave the PMTs (besides you go in to exhchange the PMTs).
If you ramp pt PMT North (or the same detector at a different position), start with 2400 V and then slowly increase by steps of 50V.

Checked theresholds (but during injections, so in presence of electronic noise from injection). A further adjusted might be done later when we have measurement conditions.
(Or if we have time to exchange the PMTs).


Presently we have the following settings for CAEN:


CH1: Middle 2750 V, Thr 9
CH2: South 2700 V, Thr 7
CH3: North 2800 V, Thr 9
    Reply  Tue Jun 24 17:39:13 2025, Carsten, Stefan, Simon, Rima, Nils, Detectors, PMT behaviour - noise / PMT voltages / CFD Threshholds / CAEN Power supply (broken channel resetted) 
PMT North and South have been changed:

CFD CH0: Middle Thr 7 / CAEN HV Ch1: 2750 V
CFD CH1: South Thr 8 / CAEN HV Ch2: 2700 V
CFD CH2: North Thr 8 / CAEN HV CH3: 2800 V

MESY CFD Ch4: Thr.17
MESY CFD Ch5: Thr.16
MESY CFD Ch6: Thr.20


Quote:
In position North there is still the "old" 9423B PMT that draws quite some current.
On this detector threre is also some quite substantial noise. Very likely the base is not ok any more. Noise was much lesss for the other two PMTs.
Since position NORTH is the position with the largest sold angle, if there is another break from the accelerator we should exchange it against SOUTH.
It was also difficult to ramp up PMT north ; and I thought that againa channel broke (showing UnV not OVC (Overcurrent)). However, the PS is resetted if
you switch of the whole crate (aka switch the PS off). Before doing so, please ramp down the other channels slowly as intended.

Please leave the PMTs (besides you go in to exhchange the PMTs).
If you ramp pt PMT North (or the same detector at a different position), start with 2400 V and then slowly increase by steps of 50V.

Checked theresholds (but during injections, so in presence of electronic noise from injection). A further adjusted might be done later when we have measurement conditions.
(Or if we have time to exchange the PMTs).


Presently we have the following settings for CAEN:


CH1: Middle 2750 V, Thr 9
CH2: South 2700 V, Thr 7
CH3: North 2800 V, Thr 9
Entry  Tue Jun 24 15:44:06 2025, Konstantin, DAQ, Phase shift in DAQ1  
In the SetParameters.C file is a parameter called fPar->piPhaseOffset. It was shifted from 100 to 50 in order to see ion bunches in the pmt signal and laser pulses in the photodiode signal during the same revolution in the TDC spectrum. Note that this parameter must be taken 
into account when setting the window conditions of the arrival time in the SetConditions.C file.
Entry  Mon Jun 23 18:36:39 2025, Wilfried, Simon, Detectors, PMT test with LED  
We tested the PMTs again, this time with an UV LED that is mounted at a window close to the XUV detector.
PMT south showed a very clear increase in count rate from about 1 to 50 Hz.
PMT mid also showed a small increase by a few Hz.
For PMT north there was no great change between LED off and on, but we think that the count rate also very slightly increased. Note, that PMT north is also the furthest away from the LED.

Also we saw a difference between single- and multi-photon events at PMT south.
Entry  Mon Jun 23 10:59:36 2025, Julian, Lukas, Zsolt, Nadine, Konstantin, Runs, Scan routine 
-Start new injection
->wait for 60 injections to be complete
->note down SIS intensity (at extraction)
->observe Schottky to ensure proper bunching
->check laser position (should be well-centered)
-open file, start Go4
->do '@openfile' in both mbs windows
->start acquisition (green arrow) in both Go4 instances (check indicator 'Current Ev/s' at the bottom, should be green, not red)
->start laser scan
->reset Ch3 of the particle detector (in the electronics hut)
->check laser position (disappears at start of scan then drifts through the image from the left)
-when laser scan is finished:
->stop Go4 acquisition (big red 'STOP' button in the top row)
->do '@closefile' in both mbs windows
->check counts on particle detector
-update elog
-repeat
Entry  Mon Jun 23 10:52:34 2025, Julian, Lukas, Zsolt, Nadine, Konstantin, Laser, Frequency conversion unit  
We exchanged the old BBO of the Cobra's FCU with a new one. The output power of the Cobra was around 120mJ. In the end, we achieved a UV power of about 21mJ. In addition, we optimized the fiber-coupling to the wavemeter.
Entry  Mon Jun 23 01:01:17 2025, Carsten, Detectors, CAEN PMT Power supply  
Since yesterday, channel 0 of the CAEN PS is dead (no voltage even without cable).
Changed detector south to channel 3.
Entry  Sun Jun 22 23:48:35 2025, Carsten, Accelerator, Summary of todays settings and tests  
Scraping, beam intesnity optimizations and nuching were set up and optimized during the day.

Initial findings

  • Very long cooling times are needed after deceleration to cool the decelerated beam.
  • Electron energy and decelerated beam are not well matched.
  • 229Th is cooled even later after the other ions
  • Even after scraping some contaminats remained that were either rebunched and show side bands. or move around as a "cloud".
  • This can be seen on the detectors (e.g. particle dector, but also PMTS) as a flat bump in the folded "accu" spectra. the signal decreases with time. I.e., It moves around the ring with a frequency matching the one of the wanted species but with some "phase offset" of about half a ESR revolution. The signal is ratger stron but vanishes ("decays") after some time. Probably finally scraped og
  • It is very tigth to set the scrapers correctly (and the particke detector).
  • Fortunately the ion beam optical setting is such that the scraper in the south is in optimal position just at its "Endlage inne" (values see below)
  • SIS intensiteis have increased but are still on average a factor 3-4 lower than one year ago.
  • As a sidenode: For optimal scraping, the beam decelerated, debunched, cooled, scraped and rebunhced. Thus, one can see if there are contaminants, and, in consequence clean the beam better from unwanted species.
  • The bunches are still quite long given the number of ions, increasing of the bucket fill from 1.0 to values large than 1.4 gives problems such as phase shifts , ande changes even inbetween a waiting/measurement time. to be discussed with the specialists on monday

Mitigation Solution

  • The cooling energy is set 100V higher - which also matches better to a recalculated scanning range; ( PTB 104513 V, Ohmlabs 1040509 V). This better matching improves cooling times but is till not optimal. It is noted, tha tthe cooling times are long since a broad cloud of ions is decelerated, and the electron current is low (was 50 mA, now 60 mA).
  • Electron current increased 50 mA -> 60 mA.
  • Scrapers are moved in in two steps with an intermediate posiions to mitigate the problem of overshoots when driving. Before rebunching they are slightly moved out to make room for the slightly larger
    bunched beam.
  • Due to the change of the voltage the bunching frequency has changed (see post of the start of the test measurements); electron cooled DC beam and bunched beam are (alomost) matched using the RSA in 100kHz scale. The new reference frequency on the RSA are (old: 243.750625MHz, rev. frequency 1.542728 MHz, 158 harm - new: 243.815 MHz, 1.54313 MHz).
    [New settings for timing and scraper position will be attached as fotos; an emergency backup of the settings are stored in an earlier post).
  • The cooler actually drags the ion very slowly to its final position after ~30 s just before rebunichng (visible by the shift of the peak relative to the marker just before rebunching). This is interpreted as and effet of the power supplies only very slowly reaching a final value to within a few kHz.
Entry  Sun Jun 22 22:29:04 2025, Carsten, Accelerator, Backup copy of present accelerator settings - don't use if you don't know what you are doing  
# Version: 1.3
# Comment: ParamModi Export at 2025-06-22T22:28:05.633712878+02:00[Europe/Berlin]
# Context: ESR_25_12_THORIUM_20June_v3.C1
# Columns: PARAMETERNAME,VALUE,UNIT,BEAMPROCESSPURPOSE
LOGICAL.GE01MU4I/I_S,4491.05043029445,A,RING_INJECTION
LOGICAL.GE01MU4I/MSEP_HKICK_S,0.0043,rad,RING_INJECTION
LOGICAL.GE01MU4I/MSEP_K0L_THEO_S,-0.12,rad,RING_INJECTION
LOGICAL.GE01QS8F/I,463.143014,A,RING_INJECTION
LOGICAL.GE01QS8F/K1L,0.3896271,1/m,RING_INJECTION
LOGICAL.GE01QS8F/K1L,0.3896271,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS8F/K1L,0.3896271,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS8F/K1L,0.3886767,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/I,502.08169,A,RING_INJECTION
LOGICAL.GE01QS9D/K1L,-0.42217205,1/m,RING_INJECTION
LOGICAL.GE01QS9D/K1L,-0.42217205,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/K1L,-0.42217205,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/K1L,-0.42156725,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/I,0.0,A,RING_INJECTION
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_ECB,0.0,rad,RING_INJECTION
LOGICAL.GE02KY1/I,0.0,A,RING_INJECTION
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_ECB,0.0,rad,RING_INJECTION
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_ECB,-0.0022289887,rad,RING_INJECTION
LOGICAL.GE02KX1/ICORR,49.77949,A,RING_INJECTION
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_ECB,9.307865E-4,rad,RING_INJECTION
LOGICAL.GE02KX2/ICORR,-81.07324,A,RING_INJECTION
LOGICAL.GE02KS1/I,48.447561,A,RING_INJECTION
LOGICAL.GE02KS1/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE02KS1/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/I,35.692605,A,RING_INJECTION
LOGICAL.GE02KS2/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE02KS2/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/I,0.0,A,RING_INJECTION
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_ECB,0.0,rad,RING_INJECTION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DD2_G/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.035,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.07,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.08,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.035,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02MK/KICKER_HKICK_S,-0.0048,rad,RING_INJECTION
LOGICAL.GE02MK/TKICK_OVER_TREV_S,0.4,,RING_INJECTION
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX3/ICORR,32.4177,A,RING_INJECTION
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/ICORR,-43.9735,A,RING_INJECTION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE02DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,0.017,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,0.015,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,0.0175,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,0.015,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.12,m,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,902.595,V,RING_INJECTION
LOGICAL.GE02BE1/URF,902.595,V,RING_BUNCHING
LOGICAL.GE02BE1/URF,902.595,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,902.595,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,902.595,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,902.595,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,902.595,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,902.595,V,RING_REBUNCHING
LOGICAL.GE02BE1/URF,902.595,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,902.595,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,577.661,V,RING_RAMP
LOGICAL.GE02BE1/URF,577.661,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,577.661,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,577.661,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,577.661,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,577.661,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,577.661,V,RING_RAMP
LOGICAL.GE02BE1/URF,1188.106,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE02BE1/URF,131.215,V,RING_INTERMEDIATE
LOGICAL.GE02BE1/URF,131.215,V,RING_INTERMEDIATE
LOGICAL.GE02KY3/I,0.0,A,RING_INJECTION
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY3/VKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE02KS3/I,35.692605,A,RING_INJECTION
LOGICAL.GE02KS3/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE02KS3/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/I,48.447561,A,RING_INJECTION
LOGICAL.GE02KS4/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE02KS4/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE02KX5/ICORR,-31.00894,A,RING_INJECTION
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE02KX6/ICORR,0.0,A,RING_INJECTION
LOGICAL.GE02KY4/I,0.0,A,RING_INJECTION
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY4/VKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEITKX1/I_S,0.0,A,RING_INJECTION
LOGICAL.GEITKX1/K0L_SPEC_S,-1.047197,rad,RING_INJECTION
LOGICAL.GEITQT11/I_S,0.0,A,RING_INJECTION
LOGICAL.GEITQT11/K1L_SPEC_S,-0.293044,1/m,RING_INJECTION
LOGICAL.GEITQT12/I_S,0.0,A,RING_INJECTION
LOGICAL.GEITQT12/K1L_SPEC_S,0.820468,1/m,RING_INJECTION
LOGICAL.GEITQT13/I_S,0.0,A,RING_INJECTION
LOGICAL.GEITQT13/K1L_SPEC_S,-0.293044,1/m,RING_INJECTION
LOGICAL.GEITKX2/I_S,0.0,A,RING_INJECTION
LOGICAL.GEITKX2/K0L_SPEC_S,-1.047197,rad,RING_INJECTION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01KY1/I,0.0,A,RING_INJECTION
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY1/VKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE01QS0D/I,502.08169,A,RING_INJECTION
LOGICAL.GE01QS0D/K1L,-0.42217205,1/m,RING_INJECTION
LOGICAL.GE01QS0D/K1L,-0.42217205,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS0D/K1L,-0.42217205,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS0D/K1L,-0.42156725,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/I,463.143014,A,RING_INJECTION
LOGICAL.GE01QS1F/K1L,0.3896271,1/m,RING_INJECTION
LOGICAL.GE01QS1F/K1L,0.3896271,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/K1L,0.3896271,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/K1L,0.3886767,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD3IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE01KX1/ICORR,15.41154,A,RING_INJECTION
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE01KX2/ICORR,-43.06471,A,RING_INJECTION
LOGICAL.GE01MU1/I,2770.66501,A,RING_INJECTION
LOGICAL.GE01MU1/K0L,1.04719755,rad,RING_INJECTION
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/I,335.158283,A,RING_INJECTION
LOGICAL.GE01QS2F/K1L,0.28228511,1/m,RING_INJECTION
LOGICAL.GE01QS2F/K1L,0.28228511,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/K1L,0.28228511,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/K1L,0.28148391,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/I,48.447561,A,RING_INJECTION
LOGICAL.GE01KS1/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE01KS1/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/I,450.58168,A,RING_INJECTION
LOGICAL.GE01QS3D/K1L,-0.56944868,1/m,RING_INJECTION
LOGICAL.GE01QS3D/K1L,-0.56944868,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/K1L,-0.56944868,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/K1L,-0.56858608,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/I,407.036879,A,RING_INJECTION
LOGICAL.GE01QS4F/K1L,0.35413758,1/m,RING_INJECTION
LOGICAL.GE01QS4F/K1L,0.35413758,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/K1L,0.35413758,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/K1L,0.35323918,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/I,35.692605,A,RING_INJECTION
LOGICAL.GE01KS2/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE01KS2/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/I,0.0,A,RING_INJECTION
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_TAB,0.0,rad,RING_INJECTION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2IG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.12,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.0085,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.12,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.006,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.0085,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.12,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2AG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01MU5L/I_S,0.0,A,RING_INJECTION
LOGICAL.GE01MU5L/MSEP_HKICK_S,0.0,rad,RING_INJECTION
LOGICAL.GE01MU5L/MSEP_HKICK_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_HKICK_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_HKICK_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,0.0,rad,RING_INJECTION
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,---,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/ICORR,2.38587,A,RING_INJECTION
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/ICORR,-7.58189,A,RING_INJECTION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_BUNCHING
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_REBUNCHING
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RAMP
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_RF_MANIPULATION
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_PERFORM
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_WAIT
LOGICAL.GE01DS3HG/ACTIVE_S,false,,STORAGE_MANIP_RESTART_FGS
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,---,m,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INJECTION
LOGICAL.GE01BU1/URF,0.0,V,RING_BUNCHING
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_REBUNCHING
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_RAMP
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_RAMP
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU1/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INJECTION
LOGICAL.GE01BU2/URF,0.0,V,RING_BUNCHING
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_REBUNCHING
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_RAMP
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_RAMP
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_RF_MANIPULATION
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01BU2/URF,0.0,V,RING_INTERMEDIATE
LOGICAL.GE01KY3/I,0.0,A,RING_INJECTION
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY3/VKICK_ECB,0.0,rad,RING_INJECTION
LOGICAL.GE01KS3/I,35.692605,A,RING_INJECTION
LOGICAL.GE01KS3/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE01KS3/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/I,407.036879,A,RING_INJECTION
LOGICAL.GE01QS5F/K1L,0.35413758,1/m,RING_INJECTION
LOGICAL.GE01QS5F/K1L,0.35413758,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/K1L,0.35413758,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/K1L,0.35323918,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/I,450.58168,A,RING_INJECTION
LOGICAL.GE01QS6D/K1L,-0.56944868,1/m,RING_INJECTION
LOGICAL.GE01QS6D/K1L,-0.56944868,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/K1L,-0.56944868,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/K1L,-0.56858608,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/I,48.447561,A,RING_INJECTION
LOGICAL.GE01KS4/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE01KS4/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/I,335.158283,A,RING_INJECTION
LOGICAL.GE01QS7F/K1L,0.28228511,1/m,RING_INJECTION
LOGICAL.GE01QS7F/K1L,0.28228511,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/K1L,0.28228511,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/K1L,0.28148391,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_ECB,-9.307865E-4,rad,RING_INJECTION
LOGICAL.GE01KX5/ICORR,-16.71497,A,RING_INJECTION
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_ECB,0.0022289887,rad,RING_INJECTION
LOGICAL.GE01KX6/ICORR,-34.24571,A,RING_INJECTION
ESRB2B/B2B_SID_EXT_S,3,,RING_INJECTION
ESRB2B/B2B_TRIGGER_OFFSET_S,0.0,deg,RING_INJECTION
ESRBEAM/BEAM_MODE_S,---,,RING_INJECTION
ESRBEAM/BRHO_START_END_S,[8.16513798, 8.16513798],Tm,RING_INJECTION
ESRBEAM/BRHO_START_END_S,[8.16513798, 8.16513798],Tm,RING_RAMP
ESRBEAM/BRHO_START_END_S,[8.16513798, 5.35118166],Tm,RING_RAMP
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_INJECTION
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_BUNCHING
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_REBUNCHING
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,STORAGE_MANIP_WAIT
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 4.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[4.0, 3.2]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_RAMP
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,STORAGE_MANIP_WAIT
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.2]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[3.2, 3.31]],,RING_RAMP
ESRBEAM/BUCKETFILL_RAW_S,[[3.31, 0.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 1.1]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[1.1, 1.1]],,STORAGE_MANIP_WAIT
ESRBEAM/BUCKETFILL_RAW_S,[[1.1, 1.1]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.1, 1.1]],,RING_INTERMEDIATE
ESRBEAM/CH_END_S,0.0,,RING_INJECTION
ESRBEAM/CH_END_S,1.0E-4,,RING_RAMP
ESRBEAM/CH_END_S,1.0E-4,,RING_RAMP
ESRBEAM/CV_END_S,0.0,,RING_INJECTION
ESRBEAM/CV_END_S,1.0E-4,,RING_RAMP
ESRBEAM/CV_END_S,1.0E-4,,RING_RAMP
ESRBEAM/DELTAR,0.0,m,RING_INJECTION
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DPBL,0.0,,RING_INJECTION
ESRBEAM/DPBL,0.0,,STORAGE_MANIP_WAIT
ESRBEAM/DPBL,0.0,,RING_RAMP
ESRBEAM/DPBL,0.0,,STORAGE_MANIP_WAIT
ESRBEAM/DPBL,0.0,,RING_RAMP
ESRBEAM/DPBL,0.0,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,-0.00407,,RING_INJECTION
ESRBEAM/DPFREV,-0.00407,,RING_BUNCHING
ESRBEAM/DPFREV,-0.00407,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_REBUNCHING
ESRBEAM/DPFREV,-0.00407,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,-0.00407,,RING_RAMP
ESRBEAM/DPFREV,-0.00407,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_INTERMEDIATE
ESRBEAM/DPFREV,-0.00407,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,-0.00407,,RING_RAMP
ESRBEAM/DPFREV,0.01,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,0.00513,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00513,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00513,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,0.00513,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00513,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,0.00513,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,0.00513,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00513,,RING_INTERMEDIATE
ESRBEAM/E_S,4.0E8,eV/u,RING_INJECTION
ESRBEAM/E_S,4.0E8,eV/u,RING_RAMP
ESRBEAM/E_S,1.8943E8,eV/u,RING_RAMP
ESRBEAM/FREV,1974277.5,Hz,RING_INJECTION
ESRBEAM/FREV,1974277.5,Hz,RING_BUNCHING
ESRBEAM/FREV,1974277.5,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_REBUNCHING
ESRBEAM/FREV,1974277.5,Hz,STORAGE_MANIP_WAIT
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1974277.5,Hz,RING_RAMP
ESRBEAM/FREV,1974277.5,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,STORAGE_MANIP_WAIT
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1974277.5,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1974277.5,Hz,RING_RAMP
ESRBEAM/FREV,1547081.7,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1543135.9,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1543135.9,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1543135.9,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1543135.9,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1543135.9,Hz,RING_RF_MANIPULATION
ESRBEAM/FREV,1543135.9,Hz,STORAGE_MANIP_WAIT
ESRBEAM/FREV,1543135.9,Hz,RING_INTERMEDIATE
ESRBEAM/FREV,1543135.9,Hz,RING_INTERMEDIATE
ESRBEAM/H_INPUT_S,1,,RING_INJECTION
ESRBEAM/INJ_BUNCHPATTERN_S,[true],,RING_INJECTION
ESRBEAM/INJ_EMIH_S,1.0E-5,m*rad,RING_INJECTION
ESRBEAM/INJ_EMIL_S,0.11,eVs/u,RING_INJECTION
ESRBEAM/INJ_EMIV_S,1.0E-5,m*rad,RING_INJECTION
ESRBEAM/KL_AMPL_S,0.0,,RING_INJECTION
ESRBEAM/KL_AMPL_S,0.0,,RING_BUNCHING
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_REBUNCHING
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,---,,RING_RAMP
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,---,,RING_RAMP
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INJECTION
ESRBEAM/KL_HARM_S,4,,RING_BUNCHING
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_REBUNCHING
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,---,,RING_RAMP
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,---,,RING_RAMP
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,4,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INJECTION
ESRBEAM/KL_OFFSET_S,0.0,,RING_BUNCHING
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_REBUNCHING
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,---,,RING_RAMP
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,---,,RING_RAMP
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INJECTION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_BUNCHING
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_REBUNCHING
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,---,deg,RING_RAMP
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,---,deg,RING_RAMP
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/NPARTICLES_S,0.0,,RING_INJECTION
ESRBEAM/PARTICLE_SYMBOL_INPUT_S,229Th,,RING_INJECTION
ESRBEAM/QH_END_S,2.35,,RING_INJECTION
ESRBEAM/QH_END_S,2.3781,,RING_RAMP
ESRBEAM/QH_END_S,2.3781,,RING_RAMP
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INJECTION
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_BUNCHING
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_REBUNCHING
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_PERFORM
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_WAIT
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RAMP
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_PERFORM
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_WAIT
ESRBEAM/QH_START_END_S,[2.4, 2.4],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.4, 2.4],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.4, 2.39],,RING_RAMP
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_RF_MANIPULATION
ESRBEAM/QH_START_END_S,[2.39, 2.39],,STORAGE_MANIP_PERFORM
ESRBEAM/QH_START_END_S,[2.39, 2.39],,STORAGE_MANIP_WAIT
ESRBEAM/QH_START_END_S,[2.39, 2.39],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_INTERMEDIATE
ESRBEAM/QH_START_END_S,[2.39, 2.39],,RING_INTERMEDIATE
ESRBEAM/QV_END_S,2.35,,RING_INJECTION
ESRBEAM/QV_END_S,2.1337,,RING_RAMP
ESRBEAM/QV_END_S,2.1337,,RING_RAMP
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INJECTION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_BUNCHING
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_REBUNCHING
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_PERFORM
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_WAIT
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RAMP
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_PERFORM
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_WAIT
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RAMP
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_RF_MANIPULATION
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_PERFORM
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_WAIT
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,STORAGE_MANIP_RESTART_FGS
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/QV_START_END_S,[2.3343, 2.3343],,RING_INTERMEDIATE
ESRBEAM/Q_INPUT_S,89,,RING_INJECTION
ESRIKICKER/KICKER_MODE_S,1,,RING_INJECTION
ESRIKICKER/KICKER_START_S,76.0,deg,RING_INJECTION
ESRIKICKER/KICKER_THIGH1_S,2.0260576337419641E-7,s,RING_INJECTION
ESRIKICKER/KICKER_TOFFSET1_S,3.35E-6,s,RING_INJECTION
ESRIKICKER/NBUNCH1_INPUT_S,1,,RING_INJECTION
ESRIKICKER/TGX_TIMING_TRIGGERED_B,false,,RING_INJECTION
ESROPTICS/OPTIC_NAME_RING_S,ESR_STANDARD_OPTICS_TABLE,,RING_INJECTION
ESROPTICS/TAU_END_S,0.0,,RING_INJECTION
ESROPTICS/TAU_END_S,0.0,,RING_RAMP
ESROPTICS/TAU_END_S,0.0,,RING_RAMP
ESRORBIT/XANG_ECB,0.0,rad,RING_INJECTION
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.0,rad,RING_INJECTION
ESRORBIT/XANG_TAB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.00125,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.00125,rad,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,0.0,m,RING_INJECTION
ESRORBIT/XPOS_ECB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,-0.01,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,-0.01,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_IKB,0.01,m,RING_INJECTION
ESRORBIT/XPOS_IKB,0.01,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_IKB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_IKB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.015,m,RING_INJECTION
ESRORBIT/XPOS_SCK2,0.015,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.015,m,RING_INJECTION
ESRORBIT/XPOS_SCP2,0.015,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,0.0,m,RING_INJECTION
ESRORBIT/XPOS_TAB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,-0.01,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,-0.01,m,STORAGE_MANIP_WAIT
ESRORBIT/YANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YANG_TAB,0.0,rad,RING_INJECTION
ESRORBIT/YANG_TAB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YANG_TAB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YANG_TAB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_ECB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_ECB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_ECB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_TAB,0.0,m,RING_INJECTION
ESRORBIT/YPOS_TAB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_TAB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/YPOS_TAB,0.0,m,STORAGE_MANIP_WAIT
ESRRF/CAVITYPATTERN_INPUT_S,[false, false, true],,RING_INJECTION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INJECTION
ESRRF/CAVITY_MODE_2D_S,[],,RING_BUNCHING
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_REBUNCHING
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_RAMP
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_RAMP
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/DUALH_ACTIVE_S,false,,RING_INJECTION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INJECTION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_BUNCHING
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_REBUNCHING
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_RAMP
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_RAMP
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/PHASE_OFFSET_S,0.0,deg,RING_INJECTION
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_REBUNCHING
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,[[5, -1, -1, -1]],,RING_RAMP
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,[[5, -1, -1, -1]],,RING_RAMP
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_INTERMEDIATE
ESRRF/SEQUENTIAL_RF_B,true,,RING_INJECTION
ESRSPEC/BRHO_SPEC_S,0.0,Tm,RING_INJECTION
ESRSPEC/E_SPEC_S,0.0,eV/u,RING_INJECTION
ESRSPEC/GAMMA_SPEC_S,1.0,,RING_INJECTION
ESRSPEC/GAMMA_SPEC_USER_S,1.0,,RING_INJECTION
ESRSPEC/SPEC_ACTIVE_B,false,,RING_INJECTION
ESRSYSTEM/GENERATE_MASP_MASKED_DEVICES_B,false,,RING_INJECTION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INJECTION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_BUNCHING
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_REBUNCHING
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RAMP
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RAMP
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_PRE
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,RING_RAMP
ESRTIMEPARAM/BDOT_S,[0.05, 0.05],T/s,RING_RAMP
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_RAMP
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_POST
ESRTIMEPARAM/BP_INDEX_B,[false],,RING_INJECTION
ESRTIMEPARAM/BP_INDEX_S,[-1],,RING_INJECTION
ESRTIMEPARAM/COUPLING_TIMEOUT_S,15.0,s,RING_INJECTION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,BEAMOUT_PRE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STATIC
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INJECTION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_BUNCHING
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_REBUNCHING
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,BEAMOUT_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_FINAL_S,QUADRATIC,,BEAMOUT_POST
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,BEAMOUT_PRE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STATIC
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INJECTION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_BUNCHING
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_REBUNCHING
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_RF_MANIPULATION
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,RING_INTERMEDIATE
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,BEAMOUT_RAMP
ESRTIMEPARAM/ESR_ROUNDING_TYPE_INITIAL_S,QUADRATIC,,BEAMOUT_POST
ESRTIMEPARAM/EVENT_B,[false],,RING_INJECTION
ESRTIMEPARAM/EVENT_ID_S,[0],,RING_INJECTION
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_PRE
ESRTIMEPARAM/MINPDIST_S,0.0,,STATIC
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INJECTION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_BUNCHING
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_REBUNCHING
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RAMP
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RAMP
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_RAMP
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_POST
ESRTIMEPARAM/OFFSET_S,[0.0],s,RING_INJECTION
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_PRE
ESRTIMEPARAM/TGRID_S,0.002,s,STATIC
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INJECTION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_BUNCHING
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_REBUNCHING
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RAMP
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RAMP
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_RAMP
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_POST
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INJECTION
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_BUNCHING
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_RAMP
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_RAMP
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_INJECTION
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_BUNCHING
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_REBUNCHING
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,---,s,RING_RAMP
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,---,s,RING_RAMP
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_PRE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STATIC
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INJECTION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_BUNCHING
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_REBUNCHING
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RAMP
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.128, 0.128],s,RING_RAMP
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.05, 0.05],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_RAMP
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_POST
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_PRE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STATIC
ESRTIMEPARAM/T_BP_LENGTH_S,3.6,s,RING_INJECTION
ESRTIMEPARAM/T_BP_LENGTH_S,0.016,s,RING_BUNCHING
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.016,s,RING_REBUNCHING
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,25.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.064,s,RING_RAMP
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.064,s,RING_RAMP
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,30.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,20.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,8.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_RAMP
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_POST
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_PRE
ESRTIMEPARAM/T_WAIT_S,0.0,s,STATIC
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INJECTION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_BUNCHING
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_REBUNCHING
ESRTIMEPARAM/T_WAIT_S,0.016,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.064,s,RING_RAMP
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.016,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.064,s,RING_RAMP
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.016,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_RAMP
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_POST
ESRTIMEPARAM/WITH_CONSTANT_CURRENT_RAMPING_B,---,,BEAMOUT_PRE
ESRTIMEPARAM/WITH_CONSTANT_CURRENT_RAMPING_B,---,,RING_RAMP
ESRTIMEPARAM/WITH_CONSTANT_CURRENT_RAMPING_B,---,,RING_RAMP
ESRTIMEPARAM/WITH_CONSTANT_CURRENT_RAMPING_B,---,,BEAMOUT_RAMP
ESRTIMEPARAM/WITH_CONSTANT_CURRENT_RAMPING_B,---,,BEAMOUT_POST
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,132.7773,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,87.2394,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,86.8159,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,57.0412,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0727,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0727,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0727,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.1455,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.1455,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.1455,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.1455,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,1.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,1.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,1.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,1.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2182,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2182,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2182,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2909,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2909,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2909,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,0.2909,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,3.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,3.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,3.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,3.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,4.0E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,20.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,160.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,160.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,160.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[219482.1738, 219482.1738],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[219482.1738, 219482.1738],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[219482.1738, 219482.1738],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[219482.1738, 219482.1738],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[104467.3947, 104467.3947],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[104569.1547, 104569.1547],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[104569.1547, 104569.1547],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/U_COOLER,219482.1738,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/U_COOLER,219482.1738,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/U_COOLER,104569.1547,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG2T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,999.0758,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,999.0758,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,2586.9673,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,999.0758,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,999.0758,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,250.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,250.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,250.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,250.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,250.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,212.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,212.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,275.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,233.2,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,233.2,V,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,false,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/GAMME,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4294,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.2043,,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.25,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.25,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.25,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.25,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.25,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.25,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.25,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.06,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.06,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.06,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7145,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7145,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7145,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7145,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.5572,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.5572,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.5572,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,2.5211384723411733E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,2.5211384723411733E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,2.5211384723411733E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,2.5211384723411733E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,3.837140484120625E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,9.209137161889498E11,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,9.209137161889498E11,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,219422.9353,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,219422.9353,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,219422.9353,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,219422.9353,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,104397.0789,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,104397.0789,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,104397.0789,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[39.2385, 39.2385],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[39.2385, 39.2385],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[39.2385, 39.2385],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[39.2385, 39.2385],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[50.3158, 50.3158],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[12.0758, 12.0758],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[12.0758, 12.0758],V,ECOOLER_COOLING
Entry  Sun Jun 22 21:36:48 2025, Carsten, Finn, Zac, Esther, Runs, First laser scans 

Scan parameters:
scan range551.91 - 549.41
positions501
step width0.005nm
advance after15 rising edges
iterations1
rev. frequency 1.54315e6


Note: When doing the accumulation in the ESR the particle number (observed in Lassie Monitor) seems to saturate. This is not actually the case but just an effect of the real signal being buried in other species.

Time Part. Det. Int SIS-intensity accumulations in ESR cooler-HV PTB cooler-HV ? LMD-DAQ1 Files LMD-DAQ2 Files scan range(nm) number of positions dwell time (laser shots) n loops checked laser position comments
22:33 10800 1.25e9 60 104513 104509 106 0136 551.91 - 549.41 501 15 1 yes -
22:50 10800 1.3e9 60 104513 104509 107 0137 551.91 - 549.41 501 15 1 yes -
23:07 14000 1.3e9 60 104513 104509 108 0138 551.91 - 549.41 501 15 1 yes -
23:24 11500 1.3e9 60 104513 104509 109 0139 551.91 - 549.41 501 15 1 yes -
23:40 13100 1.3e9 60 104513 104509 110 0140 551.91 - 549.41 501 15 1 yes -
23:57 13100 1.3e9 60 104513 104509 111 0141 551.91 - 549.41 501 15 1 yes -
00:14 12700 1.4e9 60 104513 104509 112 0142 551.91 - 549.41 501 15 1 yes -
00:31 13500 1.4e9 60 104513 104509 113 0143 551.91 - 549.41 501 15 1 yes -
00:48 10700 1.25e9 60 104513 104509 114 0144 551.91 - 549.41 501 15 1 yes -
01:05 - 1.0e9 60 104513 104509 115 0145 551.91 - 549.41 501 15 1 yes BAD FILE(?): beam was killed as some point during the scan, we don't know why; no counts on the particle detector
Entry  Sun Jun 22 18:47:23 2025, Carsten, Peter, Marek, Simon, DAQ, PMT and particle detector settings 
Final voltages and thresholds for the PMTs and particle detectors before the first scan:

Detector voltage (kV) threshold (mV) mesytec
particle detector 1.35 100 -
PMT north 2.7 10 16
PMT mid 2.65 10 16
PMT south 2.7 10 16


All other mesytec thresholds remain unchanged and can be found in entry 7.

Important note: Ch0 of the PMT power supply broke, so we moved PMT north to CH3.
Current setup:
CH1: PMT mid
CH2: PMT south
CH3: PMT north
Entry  Sun Jun 22 11:31:59 2025, Arya, Carsten, Julien, Konstantin, General, Summary morning shift  
1. UNILAC running again, so we resumed the beam tuning wherre we stopped yesterday at 14:00

2. Goals: Reduce intensity and lifetime of "antibunch" contamination while maximising intensity for main bunch/on PD
   Adjusted bucketsize, el. cooler current, cooling times,.. 
   Managed to get bunch width to 6-8 bins and get 10k counts in 15 mins with only 20 injections
   but el. cooling still takes long and sometimes bunch phase jumps by 90° in "measurement manipulation"

4. Checked scan range again and found small discrepancy

3. Decided to switch el. cooler voltage (1st cooling) by +100V, 
   ion beam position in el. cooler should not be afected by this too much, at the scrapers at which the dispersion is maximal it shifted the beam by 5mm

new revolution frequency: 1.54315 GHz
new electron cooler voltage: 104506 V(+95 V; slightly adjusted to match revolution frequency   
"antibunch" vanishes within first 10s
bunch on PD wider, but might be missmatch of HF and cooler voltage
Entry  Sat Jun 21 22:33:04 2025, Peter , Danyal, Detectors, PMTs are switched off  
We have switched off all 3 PMTs  !
Entry  Sat Jun 21 21:55:18 2025, Peter, Danyal, Marek, Detectors, PMT rates no_rings_under_PMT_north.png2_rings_under_PMT_north.png 
We have made two foam rings (outer diameter ca. 70 mm with a thickness of 10 mm each and placed them successively underneath PMT north. 

ring 1: ID = 55 mm 
ring 2: ID = 47 mm 

Without rings we had measured ca. 20 counts per channel in a time of about 7 minutes. (1st picture below) 

With ring 1 we have measured ca. 18 counts per channel in 7 mins. 

with ring 1 and ring 2 we have measured ca. 15 counts per channel in 7 mins. (2nd picture below)

It is clear that the rate of PMT north decreases with increasing distance from the beampipe. 

At this point it is not yet clear to us if the experiment will benefit from the 2 rings. 

If the rings should be implemented, we propose to have one proper ring (20 mm high) made by the mechanical workshop.
Entry  Sat Jun 21 18:00:49 2025, Carsten, Peter, Danyal, Kristian, Marek , Detectors, PMT signals Panel4.gif 
Carsten and Kristian changed (18:00) the thresholds of PMT north and PMT middle in the ESR cave. 
See picture below. The effect is negligible. 


Carsten will now (18:05) change the channel of the pre-amp of PMT north.
Entry  Sat Jun 21 17:00:10 2025, Carsten, Peter, Danyal, Kristian, Marek, Detectors, PMT north exchanged Panel4.pngPanel4.jpg 
We noted that the dark countrate of PMT north is about 20x higher than that of PMT middle. 

We went into the ESR cave to look for stray light. 
We decided to put a black cloth over all the PMTs. 
Also we made the tubes of the N2 airflow to the PMTs black (tape around). 
This did not make a significant change. 

We exchanged PMT north (same type 9423B) to see if that made a difference. 
It did not really change either. 

PMT north = 2650 V 
PMT middle = 2700 V 

The first picture below shows the dark rates for these two voltages. 

At about 17:00 we changed the voltage of PMT north to 2700 V. 
This did not change anything. 


Carsten swapped the cables of PMT north and PMt middle (inside ESR, before the amps) at 17:14.
The second picture below shows the result of that. 
Now black and red are exchanged. 


Carsten swapped the cables back again (17:20). 
Carsten and Kristian will look at the PMT signals in the ESR cave.
Entry  Sat Jun 21 11:42:50 2025, Arya, Julien, Wilfried, General, Test laser scan  
Test scan to see whether laser spot is moving while scanning

Aborted accumulation because SIS stopped. 12.9k counts
saved as /data.local2/2025_229Th/2025_229ThDAQ1_0103.lmd using DAC1 only

We filmed it and will try to attach it later
1. After resetting to high wavelength, the MRC stabilization takes a bit longer to adjust, beam not centered for the first 1-2s
2. During the scan the beam does not seem to jump around more than usual, but there might be a minimal wavelength dependent drift (maybe 1/3 of laser beam diameter towards bottom right over entire scan range)
Entry  Sat Jun 21 08:48:16 2025, Arya, Julien, Wilfried, Accelerator, Low 229Th particle numbers and 229Th lifetime in ring Bildschirmfoto_timing_full_2025-06-21_09-30-46.pngBildschirmfoto_timing_end_of_manipulation_2025-06-21_09-36-24.pngBildschirmfoto_timing_full_60_2025-06-21_11-25-51.pngBildschirmfoto_PDSouth_lifetimes_2025-06-21_11-26-43.png 
With reference to entry 37 Laser timing:

- at last 30 injections accumulation: 10k counts on particle detector (accumulated during manipulation until it saturates, e.g. no more Th in ESR)
- at first 70 injections accumulation: 7.6k counts
- at second 70 injections accumulation: 2.8k counts

did another 2 30 injections accumulations to confirm lower yield: 
- at first 30 injections accumulation: 3.7k counts
  SIS intensities look fine, around 1.2e9
- at second 30 injections accumulation:  6.9k counts
  saved to /data.local2/2025_229Th/2025_229ThDAQ1_0101.lmd with DAQ1
  SIS intensities look fine, around 1.2e9, only users during injection
  "late" contaminants on PD seem to quickly disappear after start of modulation 3 
  (attachment 1: full timing spectrum, attachment 2: timing spectrum at the end of the modulation)
- at second 60 injections accumulation:  0 counts, maybe scrapers overshot,did another one, still not accumulating

     -------------------   Some issue on accelerator side   -------------------
        FSR people had to go into cave, that's why we were the only users, 
        but since nothing got into ESR
        Connection to scrapers was lost, on call service had to do a reset

- at second 60 injections accumulation:  11.9k counts
  saved to /data.local2/2025_229Th/2025_229ThDAQ1_0102.lmd with DAQ1
  again observed that the late contaminant om the particle detector (see attachment 3) is more prominent in at the beginning.
  This also manifests in an early steep fall off on the counts/s, see attachment 4
Entry  Sat Jun 21 07:28:35 2025, Arya, Julien, Wilfried, Laser, Laser Timing Bildschirmfoto_IonBunch_PDs_2025-06-21.pngBildschirmfoto_rough_timing_2025-06-21_07-22-59.pngBildschirmfoto_timingcorrected_2025-06-21_08-21-53.pngBildschirmfoto_timing_final_2025-06-21_08-46-18.png 
We roughly adjusted the timing based on attachment 1, for ions to be in center of electron cooler (east arc), corrected for PMTs being 2.5m closer to the north on the west arc
then did a new 30 injection accumulation (10.8k counts on particle detector) and readjusted the timing to fine tune this
(attachment 2, first settings right peaks, adjusted towards left)

Then we did a 60 injection accumulation (only 7.6k counts?) to check the settings and shift the timing by half a revolution (324 ns = 98 bins)
(attachment 3, data saved in /data.local2/2025_229Th/2025_229ThDAQ1_0099.lmd with DAQ1).

Checked these settings and particle counts with another injection (2.8k counts)
(attachment 4, data saved in /data.local2/2025_229Th/2025_229ThDAQ1_0100.lmd with DAQ1)


Estimated bunch width: 20bins = 67ns;corresponds to 20/200 of 1 evolution, so about 12m
                                     assuming v+0.5c0: 11m
Entry  Sat Jun 21 03:13:02 2025, Alex, Anton, Rodolfo, Hiroshi, Detectors, Part Det South Bildschirmfoto_PartDetSouth_2025-06-21.png
Bunch signal on Particle Detector South. On the

  • right side: the thorium beam.
  • left side: a satellite peak (isobar).
Entry  Sat Jun 21 03:06:19 2025, Rodolfo, Alex, Hiroshi, Anton, Laser, beam overlap with t-scrapers 2025-06-21_05-14-39-706.png2025-06-21_05-22-21-447.png2025-06-21_05-27-59-895.png2025-06-21_05-31-37-019.pngMRC-settings_Th-Beam_2025-06-21.JPG
motorion beam position (mm) from outsideion beam position (mm) from inside
GECEDS1VU -0,5 -
GECEDS1HA -13,0 -4,5
GECEDS2VU 1,0 -
GECEDS2HA -10,5 -0,5


Note: To move GECEDS1VU the corresponding horizontal drive (GECEDS1HA) has to be at -4,0 mm.
Note: To move GECEDS2VU the corresponding horizontal drive (GECEDS2HA) has to be at 2,0 mm.


GECEDS1VU (from E.outside -74.0): -1,0 (start scraping)
-0,5 (ion beam disappear)

GECEDS1VU-End.I (24,8)
GECEDS1HA (from E.outside -96,2): -13,0 (ion beam disappear)
GECEDS1HA (from E.inside -79,5): -4,5 (ion beam disappear)

GECEDS1HA (-4,0): no interlock for GECEDS1VU => drive out to End-A


GECEDS2VU (from E.outside -70.7): 1,0 (ion beam disappear)
GECEDS1VU-End.I (30,4)

GECEDS2HA (from E.outside -86,4): -10,5 (ion beam disappear)
GECEDS2HA (from E.inside 78,6): -0,5(ion beam disappear)
Entry  Sat Jun 21 02:32:24 2025, Alex, Anton, Rodolfo, Hiroshi, Carsten, Laser, Laser scanning setting 
This is the initial scanning range
  • 3 Loops
  • 501 Steps
  • 15 Shots / Step
  • From 550.4 nm to 547.9 nm. In total 2.5 nm @ 0.005 nm

Test file on DAQ2 is 0132.lmd / 0133.lmd
Entry  Sat Jun 21 01:40:31 2025, Carsten, Alex, Anton, Rodolfo, Hiroshi, Accelerator, beam parameters 
The revolution frequency for the measurement condition is: 1.542728 MHz.
The electron cooler voltage is: 104411 V.
Entry  Sat Jun 21 00:52:07 2025, Carsten, Accelerator, Summary of the last days (bunches wiht several isotopes still in ) / frequency of the  
Initially, we has very low SIS beam intensities in the 1e8 region. Setting up ESR wiht Stacking etc. turned out to be extremly tedious for the ESR crew.
Yet, they managed to get stochastic ooling working early on.

Accumulation with the new "stochstic cooling only" scheme essentially does not saturate even after 40 injections or so.
One problem was that the beam often got lost at deceleration and not reliable / reproducable conditions could be achieved.

Also the secondary beam and partilce ID could finally be established (see earlier posts). During deceleration often the partilces were got lost again.

In the decelerated bunch at least 7 isotopes were decelerated (and not only one):

The frequencies were

@ 400 MeV/u in SC 3:
    [1] 242.27986 MHz
    [2] 242.82623 MHz + 27.5 kHz
    [3] 242.853 MHz + 54.375 kHz 229Th
    [4] 242.878 MHz + 79.375 kHz
    [5] 242.936 MHz + 137.5 kHz
    [6] 242.959 MHz + 160 kHz
    [7] 242.982 MHz + 183.75 kHz

decelerated to 190 MeV/u:
    [1] 243.6925 MHz
    [2] 243.72213 MHz + 29.6 kHz
    [3] 243.750 MHz + 57.375 kHz 229Th --- Reference on Schottky scope
    [4] 243.7768 MHz + 84. kHz
    [5] 243.8376 MHz + 145 kHz
    [6] 243.863 MHz + 170.6 kHz
    [7] 243.687 MHz + 194.625 kHz

Thursday night (19.6. -> 20.06.) a first scraping was established.


In order to cleanly scrape the peaks Sergey Litvinov devised a new pattern:

At the low energy (190 MeV/u) the bunch is unpacked, cooled, scraped and rebunched for the measurement.

Some details of th eabove can be found in the acclerator log.

The problem with the beam losses were solved with large cooling phases at the end of the accumulation cycle.
Entry  Sat Jun 21 00:23:22 2025, Rodolfo, Laser, Dye Farbstoff_FL27.jpg 
I have prepared new (fresh) dye solutions of Fluorescein 27: 2 charges. They are in the Safety Cabinet (Sicherheitsschrank) in the ESR Laser lab
Entry  Fri Jun 20 15:58:21 2025, Wilfried, Konstantin, Simon, Laser, Laser stepwidth 
From previous Bi-Beamtimes, we expect the width of the transition to be >50GHz (FWHM). The current step width is 0.002nm which corresponds to 8GHz, so the laser would be in resonance for 6 steps.
We should aim for at least 5 steps in resonance.

line width (sigma) >20GHz
FWHM ~50GHz
step width (fundamental) 0.004nm (4GHz)
step width (doubled) 0.002nm (8GHz)
Entry  Fri Jun 20 11:25:32 2025, Julien, Kristian, Konstantin, Laser, Automated laser scans  
In contrast to entry E12, the cabling for the automated start of the laser scan is now connected to IO3 of sddsc221.
Entry  Fri Jun 20 06:37:51 2025, Konstantin, Accelerator, Position of contaminants 
I checked the positions of the contaminants. Therefore, I drove the scrapers and observed the signal at the Schottky detector

While the vertical positions are identical for all scrapers, the horizontal positions deviate due to the dispersion in the cooler section

Scraper -83.75kHz -26.875 0 61kHz 83.25 110.625
GECEDS1VU -0.5 -0.5 -0.5 -0.5 -0.5 -0.5
GECEDS1HA (from 75mm) -4 -5 -5.2 -6.6 -6.9 -7.2
GECEDS1HA (from -75mm) -11.8 -12.8 -13.3 -14.5 -15.1 -15.7
GECEDS2VU 0.9 0.9 0.9 0.9 0.9 0.9
Entry  Wed Jun 18 20:24:01 2025, Carsten, Shahab, Ragandeep, Danyal et al. (the dayshift) and ESR crew, Accelerator, 229Th89+ identification 245_MHz_Schottky_229Th89.jpg 
We believe to have identified the 237U92+ and the 229Th89+ peaks. 

Using the Schottky resonator at about 244 MHz and taking the 123rd harmonic: 
The Schottky peak of 237U92+ should be at 242.7975 MHz and the one of 229Th89+ at 242.8494 MHz. 
The peaks should be ~52 kHz apart.

We have used:  
gamma_t	= 2.355 
alpha_p = 0.18
Entry  Wed Jun 18 19:05:28 2025, Carlo, Zac, Shahab, Ragan, Analysis, PID with rionid Schermata_2025-06-18_alle_19.03.04.pngE142_TEline-ESR_229Th.lppRSA01-2025.06.18.18.06.02.162.tiq_spectrum.npzSchermata_2025-06-18_alle_19.32.53.png 
For PID with rionid we used: 
- LISE file from last year (attached.
- .npz file from 410 RSA (attached).
Entry  Wed Jun 18 14:01:40 2025, Julien, Konstantin, Stefan, Rima, , Ion bunch on PMTs Bildschirmfoto_bunch_on_PMT_2025-06-18_14-11-44.png 
Apparentlty did not work yesterday evening (no signal), but looks fine now (see attachment)
Entry  Wed Jun 18 11:44:15 2025, Julien, Konstantin, Stefan, Rima, , Jitter CFD  
Pulses on photodiodes in entry 20 

1. seem wide, so we also looked at qswitch signal; also seemes wide.
2. Have a tail

1.:

We investigated this and came to the conclusion, that the CFD is the issue:
- On an oscilloscope, when looking at both HF signal (CFD input) and CFD output, there is a 2ns jitter.
- The same jitter is visible when looking at the CFD output when triggering on a freq. generator signal with same frequency and amplitude as HF signal (1.54263 MHz; 1V peak to peak).
- There is not significant jitter when comparing the CFD output and the qswitch signal

We tried differents CFD (also a leading edge CFD / different thresholds), but this did not significantly improve what we saw on the oscilloscope.
Applying a 10MHz filter to the HF signal only made the jitter worse.
There might be an option to get a logic (NIM) signal from ESR instead of the sin-signal
Alternatively, one could think about using a PLL.
Note: the 2ns might also be limited by the trigger of the oscilloscope. We saw that if the trigger of the oscilloscope is not on the steepest part of the HF signal, the jitter "gets worse".

2.:

We saw on the qswtich signal, that there are instances, when  the q-switch signal is too early; 
Ww will try to find out which NIM module between the CFD and the final qswitch signal causes this
Preliminary: It's coincidance crate
Entry  Wed Jun 18 08:07:17 2025, Julien, Konstantin, Laser, new FCU Calibration 2025_06_18_FCU_Cal_Table.JPG2025_06_18_FCU_Cal_Plot.JPG 
UV power was not stable but dropping from ~18 mW to 13 mW after opening COBRA shutters.
New calibration of frequency conversion unit:

Wavelength/nm       Position/Steps
554,0001            383029
553,0000            386604
552,0001            390229
551,0000            393954
550,0001            397679
549,0001            401404
548,0001            405104
547,0001            408829

now stable at ~19-20 mJ depending on wavelength

Table of dataset: Attachement 1
Plot of dataset: Attachement 2
Entry  Wed Jun 18 07:59:00 2025, Julien, Konstantin, Laser, Phase-offset IMG_3889.jpgIMG_3888.jpgIMG_3891.jpgIMG_3892.jpg 
We recognized that the output power of the pump laser was instable when externally triggered with 200kHz (stand-bye frequency of ESR). Therefore, we changed the coarse timing offset of the pockels cell trigger compared to the flash lamp pulse from 215µs to 219.9µs. 
Thereby, the output power increased from ~600mJ to 620mJ, and the PTP stability improved from 15% to 10%. The RMS stability improved from 2% to 1.2 %. With these settings we had UV pulse energies of 20mJ.
Entry  Wed Jun 18 03:12:25 2025, Rodolfo, Laser, Beam Stabilization MRC-Settings_2025_06-18.JPG
The laser beam pointing has changed, even thought the MRC settings are the same as given in Entry 5 (this elog). This could be caused by a droping of the laser output energy which is now 13,8 mJ @275 nm
Entry  Wed Jun 18 01:58:02 2025, Esther, Alexis, Anton, Rodolfo, Carsten, Accelerator, No Bunched Beam Bildschirmfoto_PD_PMTSouth_2025-06-18_1.png
The Bunching is not set properly. We do not see the ion bunch with the Photomultiplier.
Entry  Wed Jun 18 00:56:28 2025, Carsten, Rodolfo, Anton, Alexis, Esther, , beam overlap with t-scrapers 
When testing the overlap between laser and ion beam we observed the following positions:

motorion beam position (mm) from outsideion beam position (mm) from inside
GECEDS1VU 0 6.5
GECEDS1HA -22.5 -13.5
GECEDS2VU 1 8.5
GECEDS2HA -20.5 -10


Note: To move GECEDS1VU the corresponding horizontal drive (GECEDS1HA) has to be at 2 mm.
Entry  Wed Jun 18 00:33:56 2025, Esther, Alexis, Anton, Rodolfo, Carsten, DAQ, R4l-41 
We have some issues with the RIO computer R4l-41 (DAQ1). We had to switch off completely twice. Only then it reacted properly. Maybe a problem with the network at about 00:00 o'clock?
Entry  Tue Jun 17 19:25:30 2025, Rodolfo, Accelerator, T-Scrapers in E-Cooler Scrapereinstellung_am_E-Kühler.pdf
Here are the instructions to drive the T-Scrapers inside the ESR Electron Cooler

  • ECEDS1VU: Verriegelt mit ECEDS1HA. Der Antrieb kann nur fahren
    wenn der Antrieb ECEDS1HA in Position -4,0 steht.

  • ECEDS1HA: Verriegelt mit ECEDS1VU. Der Antrieb kann nur fahren
    wenn der Antrieb ECEDS1VU in Stellung EI steht.

  • ECEDS2VU: Verriegelt mit ECEDS2HA. Der Antrieb kann nur fahren
    wenn der Antrieb ECEDS2HA in Position 0,0 steht.

  • ECEDS2HA: Verriegelt mit ECEDS2VU. Der Antrieb kann nur fahren
    wenn der Antrieb ECEDS2VU in Stellung EI steht.

According to Boywitt/Schuhmacher, BEA-MEI. Date: 28.07.2021
Entry  Tue Jun 17 16:33:16 2025, Carsten, Simon, DAQ, Gate Q-swtich  
The gate generator of the Q-switch signal for the Vuprom TDC was set to 10ms.
Entry  Tue Jun 17 09:32:00 2025, Konstantin, DAQ, Meda data acquisition Bildschirmfoto_2025-06-17_11-23-40.png 
The metadata provided by Medusa (Labview channels in former times) are now labelled correctly in Go4. 
Most important data are "Cobra Set WL", "WS7 Meas WL", "PTB U scal", "Ohmlabs U scal", which correspond to the set wavelength, measured wavelength, voltage measured at the PTB divider, and voltage measured at the Ohmlabs divider.
Other channels are mostly for debugging purposes.
Entry  Mon Jun 16 22:27:01 2025, Carsten, Simon, DAQ, Thresholds  
We also adjusted the thresholds for the mesytic.
Doing that, we noticed that one of the trafos is broken (5th row, middle).

PMT channel Threshold
South 5 35
Middle 6 16
North 7 16
Entry  Mon Jun 16 21:47:23 2025, Carsten, Wilfried, Simon , Detectors, New threshold values for PMTs 
We adjusted the thresholds for the PMTs and increased the voltage of PMT middle to 2.7kV

PMT Model Operation Voltage Threshold (mV)
South ET9422B Broadband -1750 V 30
Middle ET9423B Smallband -2700 V 18
North ET9423B Smallband -2650 V 10
Entry  Mon Jun 16 07:26:01 2025, Konstantin, DAQ, Startup of Medusa and DAQ1 MedusaStartup.JPGMedusa.png
The laser control software (Medusa) is hosted on the Windows PC ATPPC023. First connect via the command

atplaser@lxg1297:~$ xfreerdp /w:2500 /h:1400 /u:atplaser /v:atppc023.campus.gsi.de

You will be asked for the usual "atplaser" password. Please be aware that you're typing on an english keyboard!
Medusa is simply started by the link on the Desktop called "Medusa Laser Control". After startup you will see the main window (Attachment 1).
Please make also sure that the Wavelength meter software is running!!! Otherwise, wavelengths cannot be logged
In the main window different actions can be made (see also Attachment 2):


  1. Open additional views, options are "Display" (figure of recent values), "MBS Messenger" (connection status with MBS, lower part of Attachment 2), "Devices View" (most recent values of different devices, right part of Attachment 2)
  2. Make sure that "Make Data Available to MBS" is selected
  3. Definition of laser scan Parameters. The laser will perform an automated scan between the selected wavelengths. It's possible to define an increment or a number of laser steps as scan parameter. After the laser has received the specified number of rising edges on Trigger port #1 (Do not change the port number, since this corresponds to the Hardware setting!) the laser advances to the next frequency until the number of steps and scan repetitions is completed. There is an option to start the laser scan automatically, when a trigger was received on port #3 (The cabling is done. However, the pulse generation must be provided from SCU sddsc221 channel IO1 of timing receiver tr1 whenever needed).
  4. The button can be used to start and stop a scan. In some cases there might occur an USB communication error with the laser, which can also be reset by this button.
  5. IMPORTANT NOTE: Make sure that the FCU is enabled, since otherwise the BBO of the FCU does not follow the wavelength of the laser, which results in NO UV output power.
  6. After "Make Data Available to MBS" option (see 2.) has been selected, Medusa is awaiting the MBS client to connect.
  7. View of most recent parameter settings.

The complete startup routine to perform a laser scan is the following:


  1. Start medusa as described above
  2. Connect to "r4l-41":
    atplaser@lxg1297:~$ ssh atplaser@r4l-41
  3. Change to the directory of the Th-MBS version:
    R4L-41 > cd mbsrun/E0052/DAQ1
  4. Make a reset (optional):
    R4L-41 > resl
  5. Start mbs:
    R4L-41 > mbs
  6. Once you are in the mbs environment start the acquisition:
    mbs > @startup
  7. Connect to the file server:
    mbs > @connectdisk
  8. Start acquisition:
    mbs > sta ac
    With this command, the connection to the Medusa server should be established. This can be verified by the line
    -R4L-41 :read_meb :connected succesfully to LabView Server.
    of the MBS output, and in the MBS Messenger View of Medusa stating
    Connected! Established connection to ...

  9. Open file:
    mbs > @openfile
  10. Press Run-button in the Go4 analysis (must be started beforehand)
  11. Start laser scan in medusa
  12. Press Stop-button in the Go4 analysis
  13. Close file:
    mbs > @closefile

As long as nothing crashes (keep fingers crossed), only steps 9-13 need to be repeated for subsequent scans.
Entry  Fri Jun 13 18:14:02 2025, Konstantin, Carsten, DAQ, DAQ Folder 
Dryrun of DAQs. Folders of the data are:


DAQ1 file DAQ2 file scan range laser steps comment
/data.local2/2025_229Th/2025_229ThDAQ1_0090.lmd /mnt/raw.data/229Th2025/Th25DAQ2_0106.lmd - */Th25DAQ2_0107.lmd 550.4 - 549.6 201
91 108 - 111 550.4 - 549.6 201
92 112 550.4 - 549.6 201 Changed step logic of Medusa back to previous version before the start of this run
93 113 550.4 - 549.6 201
94 114 550.4 - 549.6 201
95 115 - 116 550.4 - 549.6 201
96 117 550.4 - 549.6 201


Data were recorded with a synthesized RF of 1.5MHz
Entry  Thu Jun 12 16:27:45 2025, Carsten, DAQ, NTCAP directory  
On the NTCAP the directory is changed to 
Q:/E0052
Entry  Thu Jun 12 15:53:13 2025, Carsten, DAQ, data directory and backup disk (WDBook2 RAID)  
The data of DAQ1 are stored in the following directory and with the following filenames

open file /data.local2/2025_229Th/2025_229ThDAQ1_ -auto -rfio 
(from @openfile)

The usual @connectdisk, @openfile @closefile are adapted and can be used.

The WDBook RAID0 disk is attached for backup of the data

/media/atplaser/WDBook2/2025E0052daq1
Entry  Wed Jun 11 17:33:04 2025, Carsten, Jan, DAQ, DAQ2 - new computer , new directories (lxg0155 doesn't work reliably) 
LXG0155 (used in form er beamtimes) crashes and hangs and hangs eventually.

Lgx0155 is shut-down and is replaced by lxg3113.

For the experiment (DAQ2) still user stoe_exp can be used (Credits - see monitor).
MBS runs on r4l-68 with user atplaser: (/esr/usr/atplaser/) mbsrun/E0052/DAQ2

The data is stored on the ATP NAS (atprfio.gsi.de). (instead of local disk).

In the home directory there is link to access the data (u/stoe_exp/nas/229Th2025 ; ~/nas/229Th2025)
( sshfs -o directport=7777 atprfio.gsi.de:/mnt/raw.data /u/stoe_exp/nas )


For mbs the correct location on atprfio.gsi.de need to be used (cf. @openfile).i.e.
con rfio atprfio -DISK
and
open file /mnt/raw.data/229Th2025/Th25DAQ2_.lmd .
This is the mountpoint in mbs.
The commands @connectdisk and @openfile are adjusted accordingly.
Entry  Wed Jun 11 16:44:39 2025, Carsten, Jan, Detectors, Detector voltages and thresholds for DAQ2 (Mesycontrol) Mesytec_CFD_Settings_2025-06-11_17-17-33.png
Voltages (2650v) for the small band 9423 is ok. Signals are nicely separated from background, thresholds can be easily set.
For the broadband 9422 the voltage is by far too low. Signals and BG are barely separated.
Increased voltage from 1500V to 1750V (according to datasheet Vmax = 2500V, 1500 V is the min voltage for gain 1e6...).
Now signals are better separated - threshold with mesycontrol can be set in such a way that the dark count rate is 300 - 400 Hz (was > 1kHz).
For detector south, the threshold in DAQ1 has to be readjusted.

Below are the settings for Mesytec CFD. Internally the 2nC chips (x 20 ??? ) are used for both groups. Please note that thre are also 20nC chips in "parking position" (lower amplfication).
The Mesytec PMT CFD Version uses "nC" chips while the other Mesytec Shapers "gain / amplification", i.e. chips labeled with 20 are x20 and have a large amplification while the "nC" chips give the full scale range , aka the 20nC is tghe small amplification.

Note as well: Externally, the channel numbering starts with "1" while the Mesycontrol starts with "0".

The sum of all Mesytec signals defines the gate for the ADC.
Group 4-7 are the x100 signals (similar to Vuprom TDC). These signals go to the 25ps TDC and are used for timing, and to the ADC.
Group 0-3 is x10; thresholds are artificially set slightly too high, signals are used in the ADC only. Since these are the same signals as in the x100 group, their (correct) gate signals can be used in the ADC. The x10 capture also the very high signals.

ch 0(1): PMT South x10 (A).
ch 1(2): PMT Mid x10 (B).
ch 2(3): PMT North x10 (C).

ch 4(5): PMT South x100 (B).
ch 5(6): PMT Mid x100 (D).
ch 6(7): PMT North x100 (F).
Entry  Wed Jun 11 11:20:23 2025, Konstantin, Simon, DAQ, octal gate generator delays 
We checked the set delays of the OG 8000 octal gate generator and compared them with the values measured before the Bi-beamtime (see entry 34).
All values match within an uncertainty of <1ns


OG 8000 delay / ns
Photodiode North 62
Photodiode South 66.2
PMT South 157.5
PMT Middle 156.6
PMT North 159.4
Particle South 329.8
Entry  Fri Jun 6 14:27:10 2025, Rodolfo, Konstantin, Laser, MRC Beam Stabilization Presettings MRC-Settings_2025_06-06.JPGAFG_Settings_Thorium_2025-06-06.jpgMRC-Controller_Settings_Thorium_2025-06-06.jpg
These are the settings for the Beam Stabilization from MRC.

Laser-beam energy ca. 18 mJ @ 275 nm
Entry  Tue May 20 16:14:30 2025, Rodolfo, Simon, Detectors, PMT arrangement at ESR PMT_Arrangement_2025-05-20.jpg
This is the arrangement of the photomultipiers at the optical detection region at ESR for Thorium 2025


PMT Model SN Operation Voltage Threshold
South ET9422B 1042 Broadband -1500 V
Middle ET9423B 653 Smallband -2650 V 10 (preliminary)
North ET9423B 652 Smallband -2650 V 12 (preliminary)
    Reply  Wed Jun 4 16:18:57 2025, Rodolfo, Simon, Detectors, PMT dark count rates 
I adjusted the offsets of the amplifiers in the cave and measured the dark count rates :

PMT Model Operation Voltage Count rate (Hz)
South ET9422B Broadband -1500 V 1300
Middle ET9423B Smallband -2650 V 20
North ET9423B Smallband -2650 V 30



Also the MCP anode of the XUV detector is now connected to the amplifiers and fed to the data cable of "PMT Cu".




Quote:
This is the arrangement of the photomultipiers at the optical detection region at ESR for Thorium 2025


PMT Model SN Operation Voltage Threshold
South ET9422B 1042 Broadband -1500 V
Middle ET9423B 653 Smallband -2650 V 10 (preliminary)
North ET9423B 652 Smallband -2650 V 12 (preliminary)
Entry  Wed Jun 4 16:17:47 2025, Simon, Detectors, Nitrogen 
The nitrogen supply for the PMTs is turned ON.
Entry  Mon Jun 2 16:36:57 2025, Carsten, Detectors, Mesycontrol MSCF16-F-V.pdf
ssh -Y litv-exp@x86l-204
'mesycontrol'
Goto page 1, 2, 3, 4  
ELOG V3.1.5-fc6679b