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ID Date Authordown Category Subject
  3   Thu Jun 20 11:26:14 2024 Shahab, RaganRunsNTCAP started
NTCAP started with 2 MS BW.
  1   Thu Jun 6 10:09:27 2024 JanGeneralNECTAR ELOG @ LP2i
The main elog for this experiment is on the LP2i webpage:

https://www.lp2ib.in2p3.fr/elog/NECTAR/

Use this GSI-elog only in case of trouble with the LP2i server
  2   Wed Jun 12 12:28:07 2024 JanDAQTPAT and TRIGGER mapping
The trigger pattern (TPAT) of the TRLO module assigns different TPATs for each combination of logically linked incoming triggers.
Our list of incoming triggers on the ECL & LEMO inputs of the TRLO is the following:

ECL_IN(1): Telescope
ECL_IN(2): Fission
ECL_IN(3): HeavyResidual
ECL_IN(4): SolarCells
ECL_IN(5): Xray-90
ECL_IN(6): Xray-145

LEMO_IN(1): jet-ON
LEMO_IN(2): jet-OFF

The current logic in the E028.trlo config in MBS folder creates the following TPATs:

TPAT Detector
0 Tel AND jet-ON
1 Fis AND jet-ON
2 HRes AND jet-ON
3 Cell AND jet-ON
4 (Xray-90 OR Xray-145) AND jet-ON
5 Tel AND jet-OFF
6 Fis AND jet-OFF
7 HRes AND jet-OFF
8 Cell AND jet-OFF
9 (Xray-90 OR Xray-145) AND jet-OFF


The TPATs start counting at 0 here, be aware that the LogicalMatrixUnit (LMU) in TRLO config does start counting at 1. E.g. TPAT 0 is defined by [trig_lmu_out(1)= tel AND jetON].

For each event several TPATs can be active at the same time, i.e. coincidences like [Tel & HRes], which do not have an individual TPAT assigned for their coincident occurance, we would see TPATs 0 and 2, in case the jet-ON signal is present. To get an individual number for each of those coincidence channels, the expanded TPAT (EPAT) is used. It is created by adding up 2^TPAT for each active TPAT:

EPAT = Sum_i( 2^TPAT_i )

As an example EPAT 27 is the sum of TPATs 0, 1, 3, 4 and a coincidence between Tel/Fis/Cell/Xray.

27 = 2^0 + 2^1 + 2^3 + 2^4

A table for the first 5 TPATs is given below, i.e. for all jetON events.

EPAT TPAT combination Detectors
10Tel
21Fis
30 + 1 Tel + Fis
42HRes
52 + 0 Tel + HRes
62 + 1 Fis + HRes
72 + 1 + 0 Tel + Fis + HRes
83Cells
93 + 0 Tel + Cells
103 + 1 Fis + Cells
113 + 1 + 0 Tel + Fis + Cells
123 + 2 HRes + Cells
133 + 2 + 0 Tel + HRes + Cells
143 + 2 + 1 Fis + HRes + Cells
153 + 2 + 1 + 0Tel + Fis + HRes + Cells
164 XrayOR
174 + 0 Tel + XrayOR
184 + 1 Fis + XrayOR
194 + 1 + 0 Tel + Fis + XrayOR
204 + 2 HRes + XrayOR
214 + 2 + 0 Tel + HRes + XrayOR
223 + 2 + 1 Fis + HRes + XrayOR
233 + 2 + 1 + 0Tel + Fis + HRes + XrayOR
244 + 3 Cell + XrayOR
254 + 3 + 0 Tel + Cell + XrayOR
264 + 3 + 1 Fis + Cell + XrayOR
274 + 3 + 1 + 0 Tel + Fis + Cell + XrayOR
284 + 3 + 2 HRes + Cell + XrayOR
294 + 3 + 2 + 0 Tel + HRes + Cell + XrayOR
304 + 3 + 2 + 1 Fis + HRes + Cell + XrayOR
314 + 3 + 2 + 1 + 0Tel + Fis + HRes + Cell + XrayOR


Many of the combinations here can only be created by random coincidences and are not relevant for the experiment.

The table can continued for jetOFF events with TPATs > 4 and EPATs > 31, but this is omitted here.
  5   Fri Jun 28 15:44:36 2024 JanAcceleratorESR pattern
Attached is the ESR pattern of the experiment.

SC2: one shot injection

SC5: ramp to 40 MeV/u

SC8: ramp to 17 MeV/u

SC10: target ON/ det. IN

SC12: Measurement

SC13: target OFF/ det. OUT

The cycle took about 1.5 minutes without SC12
  4   Tue Jun 25 04:24:55 2024 Bertram, MathiasRunsRun 215
We use this elog as a substitute as the one from LP2iB is temporarily down. Run 215 started at 4:28 Peak target density: 3.78e13 Num of injected ions: 1.2e8 Num of cooled & decelerated ions: 5.4e7 Telescope: HV DE 90 V Current DE 185 nA HV E 300 V Current E 3.645 uA Peak rate before DT (tpat 0) 3 Peak rate after DT (tpat 0) 3 Fission trigger: Peak rate before DT (tpat 1) 388 Peak rate after DT (tpat 1) 321 Delay of trig accepted 150ns Dowscaling y/n? n Fission bottom: HV 100 V Current 1.06 nA Fission side: Distance to beam axis 10 mm HV 150 V Current 23.77 uA Fission top: HV 100 V Current 1.30 uA Heavy residue: Distance to beam axis 15 mm HV 99.9 V Current 6.48 uA Peak rate before DT (tpat 2) 219 Peak rate after DT (tpat 2) 192 Downscaling y/n n Germanium: Peak rate before DT (tpat 4) 5732 Peak rate after DT (tpat 4) 4809 Downscaling y/n y (x16)
ELOG V3.1.5-fc6679b