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E121 E127 E132 E125 E143 laser_cooling_2021 E142 Ê128 E146 E0052 E0018 E0028

proton-capture on 118Te, Page 11 of 29

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ID	Date	Author	Category	Subject	Year
94	Sat Mar 21 02:00:08 2020	Laszlo, Tino, Oliver	Runs	run entry - run051
Beam is back at 01:59 am. Open file: runstart051 beam: 118Te52+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -24 mm run start at 01:59 , first file: run051_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 10:30 ON Rates Si_X: 0-1 Hz Si_Y: 0-1 Hz Xray_35: 2 Hz Xray_90: 33 Hz Xray_145: 33 Hz BaF_OR: - Hz Si voltage: 60.02 V Si leakage current: 3.98 uA SIS particles before: 2.3e9 ESR particles at injection: estimated ~10^5 - 10^4 ESR particles after decel.: Target ON density: 1.46e13 copy and repeat the above (below the line) every 30 minutes
95	Sat Mar 21 02:15:19 2020	Laszlo, Tino, Oliver	Runs	run entry - run051
Open file: runstart051 beam: 118Te52+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -24 mm run start at 01:59 , first file: run051_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 01:59 am. ON Rates Si_X: 0-1 Hz Si_Y: 0-1 Hz Xray_35: 2 Hz Xray_90: 33 Hz Xray_145: 33 Hz BaF_OR: - Hz Si voltage: 60.02 V Si leakage current: 3.98 uA SIS particles before: 2.3e9 ESR particles at injection: estimated ~10^5 - 10^4 ESR particles after decel.: Target ON density: 1.46e13 copy and repeat the above (below the line) every 30 minutes
96	Sat Mar 21 02:31:48 2020	Laszlo, Tino, Oliver	Runs	run entry - run051
Open file: runstart051 beam: 118Te52+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -24 mm run start at 01:59 , first file: run051_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 02:31 am. ON Rates Si_X: 0-1 Hz Si_Y: 0-2 Hz Xray_35: 1-3 Hz Xray_90: 39 Hz Xray_145: 21 Hz BaF_OR: - Hz Si voltage: 60.01 V Si leakage current: 3.98 uA SIS particles before: 2.3e9 ESR particles at injection: estimated ~10^5 - 10^4 ESR particles after decel.: Target ON density: 1.46e13 copy and repeat the above (below the line) every 30 minutes
98	Sat Mar 21 03:01:22 2020	Tino, Oliver	Runs	run entry - run051
Open file: runstart051 beam: 118Te52+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -24 mm run start at 01:59 , first file: run051_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 03:01 am. ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 3 Hz Xray_90: 23 Hz Xray_145: 18 Hz BaF_OR: - Hz Si voltage: 60.02 V Si leakage current: 3.99 uA SIS particles before: 2.3e9 ESR particles at injection: estimated ~10^5 - 10^4 ESR particles after decel.: Target ON density: 1.24e13 copy and repeat the above (below the line) every 30 minutes
81	Fri Mar 20 10:28:31 2020	Ragan, RuiJiu	Runs	run entry - run050
Beam is back at 10:27 am. Open file: runstart050 beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 10:27 , first file: run050_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 10:30 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 2 Hz Xray_90: 35 Hz Xray_145: 27 Hz BaF_OR: 2441 Hz Si voltage: 60.02 V Si leakage current: 3.98 uA SIS particles before: 2e9 ESR particles at injection: 5.8e7 ESR particles after decel.: 1.3e7 Target ON density: 1.38e13 copy and repeat the above (below the line) every 30 minutes
82	Fri Mar 20 11:00:25 2020	Ragan, RuiJiu	Runs	run entry - run050
Yuri and ESR team are optimising the deceleration in ESR. DSSSD detector is taken out at 10:55 am. The HV for DSSD is switched off at 11:10 am as the detector was out and the leak current was ~18 uA. At 11:11 am, the file was closed. File close: run050 stopped. update by Laszlo: the increase of the leakage current is due to the fact that we have a vacuum measurement device next to the DSSSD when it is moved out. The phenomena is normal, the DSSSD is hit by electrons (or ions) coming from the vacuum measurement device.
Attachment 1: IMG_20200320_111413.jpg

78	Fri Mar 20 07:30:16 2020	Ragan, RuiJiu	Runs	run entry - run049
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 07:31 , first file: run049_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 07:30 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 0 Hz Xray_90: 35 Hz Xray_145: 23 Hz BaF_OR: 2483 Hz Si voltage: 60.02 V Si leakage current: 4.02 uA SIS particles before: 2.3e9 ESR particles at injection: 5.8e7 ESR particles after decel.: 5.8e6 Target ON density: 1.35e13 copy and repeat the above (below the line) every 30 minutes
79	Fri Mar 20 08:01:40 2020	Ragan, RuiJiu	Runs	run entry - run049
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 07:31 , first file: run049_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 08:00 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 2 Hz Xray_90: 33 Hz Xray_145: 29 Hz BaF_OR: 2673 Hz Si voltage: 60.01 V Si leakage current: 4.00 uA SIS particles before: 2e9 ESR particles at injection: 5.7e7 ESR particles after decel.: 5.1e6 Target ON density: 1.5e13 copy and repeat the above (below the line) every 30 minutes
80	Fri Mar 20 08:30:52 2020	Ragan, RuiJiu	Runs	run entry - run049
There is no beam due to water leakage in the transfer channel of SIS. Stop file: run049 at 8:29 am
76	Fri Mar 20 06:34:40 2020	Shahab	Runs	run entry - run048
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 06:33 , first file: run048_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 06:36 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 0 Hz Xray_90: 39 Hz Xray_145: 16 Hz BaF_OR: 2590 Hz Si voltage: 60.02 V Si leakage current: 4.0 uA SIS particles before: 2e9 ESR particles at injection: 5.8e7 ESR particles after decel.: 5.2e6 Target ON density: 1.55e13 copy and repeat the above (below the line) every 30 minutes
77	Fri Mar 20 07:01:06 2020	Shahab	Runs	run entry - run048
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 06:33 , first file: run048_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 07:00 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 1 Hz Xray_90: 39 Hz Xray_145: 38 Hz BaF_OR: 2498 Hz Si voltage: 60.02 V Si leakage current: 4.03 uA SIS particles before: 2e9 ESR particles at injection: 5.8e7 ESR particles after decel.: 5.4e6 Target ON density: 1.57e13 copy and repeat the above (below the line) every 30 minutes
74	Fri Mar 20 05:32:44 2020	Shahab	Runs	run entry - run047
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 05:30 , first file: run047_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 05:30 ON Rates Si_X: 0 Hz Si_Y: 0 Hz Xray_35: 2 Hz Xray_90: 27 Hz Xray_145: 20 Hz BaF_OR: 2379 Hz Si voltage: 60.02 V Si leakage current: 3.93 uA SIS particles before: 2e9 ESR particles at injection: 5e7 ESR particles after decel.: 5e6 Target ON density: 1.97e13 copy and repeat the above (below the line) every 30 minutes
75	Fri Mar 20 06:00:26 2020	Shahab	Runs	run entry - run047
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 05:30 , first file: run047_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 06:00 ON Rates Si_X: 1 Hz Si_Y: 1 Hz Xray_35: 3 Hz Xray_90: 33 Hz Xray_145: 23 Hz BaF_OR: 2512 Hz Si voltage: 60.02 V Si leakage current: 3.94 uA SIS particles before: 2e9 ESR particles at injection: 5.3e7 ESR particles after decel.: 5.8e6 Target ON density: 1.97e13 copy and repeat the above (below the line) every 30 minutes
72	Fri Mar 20 04:32:22 2020	Shahab	Runs	run entry - run046
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 04:31 , first file: run046_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 04:31:44 ON Rates Si_X: 1 Hz Si_Y: 1 Hz Xray_35: 3 Hz Xray_90: 33 Hz Xray_145: 23 Hz BaF_OR: 2463 Hz Si voltage: 60.02 V Si leakage current: 3.93 uA SIS particles before: 2e9 ESR particles at injection: 5e7 ESR particles after decel.: 2e6 Target ON density: 1.8e13 copy and repeat the above (below the line) every 30 minutes
73	Fri Mar 20 05:03:03 2020	Shahab	Runs	run entry - run046
beam: 124Xe54+ energy: 10 MeV/u purpose: data with TARGET ON Detector position (Si): -25 mm run start at 04:31 , first file: run046_0001.lmd run stop at xx:xx , last file: run0xx_0xxx.lmd _______________________________________________________________________________ time: 05:00 ON Rates Si_X: 1 Hz Si_Y: 1 Hz Xray_35: 3 Hz Xray_90: 28 Hz Xray_145: 24 Hz BaF_OR: 2452 Hz Si voltage: 60.02 V Si leakage current: 3.93 uA SIS particles before: 2e9 ESR particles at injection: 5e7 ESR particles after decel.: 2e6 Target ON density: 1.8e13 copy and repeat the above (below the line) every 30 minutes
221	Mon Mar 23 04:08:12 2020	Shahab	Runs	run 93 stopped
run 93 which was during faulty kicker was stopped so that the kicker module can be repaired.
140	Sat Mar 21 18:13:22 2020	Shahab	General	rough comparison gas target off and on
rough comparison of life time at 10 MeV/u when target off with on. more noise in background means weaker signal.
Attachment 1: target_effect.jpg

579	Wed Oct 13 15:15:53 2021	Jan	DAQ	root-file header for analysis	2021
Attached is the header file needed for root analysis.
Attachment 1: e127b.h
// Declaration of leaf types UInt_t TRIGGER; UInt_t EVENTNO; UInt_t Si_HV; UInt_t Si_current; UInt_t PARTICLE_trigger; UInt_t PARTICLE_vulom_timestamp_lo; UInt_t PARTICLE_vulom_timestamp_hi; UInt_t PARTICLE_tpat; UInt_t PARTICLE_WR_timestamp1; UInt_t PARTICLE_WR_timestamp2; UInt_t PARTICLE_WR_timestamp3; UInt_t PARTICLE_WR_timestamp4; UInt_t PARTICLE_mega_clock; UInt_t PARTICLE_trafo; UInt_t PARTICLE_I_cool; UInt_t PARTICLE_U_cool; UInt_t PARTICLE_jet_S1; UInt_t PARTICLE_jet_S2; UInt_t RATE_Si_ON_before_lmu; UInt_t RATE_Si_ON_before_dt; UInt_t RATE_Si_ON_after_dt; UInt_t RATE_Si_ON_after_red; UInt_t RATE_Si_OFF_before_lmu; UInt_t RATE_Si_OFF_before_dt; UInt_t RATE_Si_OFF_after_dt; UInt_t RATE_Si_OFF_after_red; UInt_t RATE_Xray_ON_before_lmu; UInt_t RATE_Xray_ON_before_dt; UInt_t RATE_Xray_ON_after_dt; UInt_t RATE_Xray_ON_after_red; UInt_t RATE_Xray_OFF_before_lmu; UInt_t RATE_Xray_OFF_before_dt; UInt_t RATE_Xray_OFF_after_dt; UInt_t RATE_Xray_OFF_after_red; UInt_t RATE_RAW_Si_X; UInt_t RATE_RAW_Si_Y; UInt_t RATE_RAW_Xray1; UInt_t RATE_RAW_Xray2; UInt_t RATE_RAW_Xray3; UInt_t RATE_RAW_BaF_OR; UInt_t RATE_RAW_SiBaF; UInt_t RATE_SiBaF_ON_before_lmu; UInt_t RATE_SiBaF_ON_before_dt; UInt_t RATE_SiBaF_ON_after_dt; UInt_t RATE_SiBaF_ON_after_red; UInt_t RATE_BaF_OFF_before_lmu; UInt_t RATE_BaF_OFF_before_dt; UInt_t RATE_BaF_OFF_after_dt; UInt_t RATE_BaF_OFF_after_red; UInt_t E_SiY[17]; UInt_t E_SiX[17]; UInt_t t_SiY[17]; UInt_t t_SiX[17]; //~ UInt_t E_SiX1; //~ UInt_t E_SiX2; //~ UInt_t E_SiX3; //~ UInt_t E_SiX4; //~ UInt_t E_SiX5; //~ UInt_t E_SiX6; //~ UInt_t E_SiX7; //~ UInt_t E_SiX8; //~ UInt_t E_SiX9; //~ UInt_t E_SiX10; //~ UInt_t E_SiX11; //~ UInt_t E_SiX12; //~ UInt_t E_SiX13; //~ UInt_t E_SiX14; //~ UInt_t E_SiX15; //~ UInt_t E_SiX16; //~ UInt_t E_SiY1; //~ UInt_t E_SiY2; //~ UInt_t E_SiY3; //~ UInt_t E_SiY4; //~ UInt_t E_SiY5; //~ UInt_t E_SiY6; //~ UInt_t E_SiY7; //~ UInt_t E_SiY8; //~ UInt_t E_SiY9; //~ UInt_t E_SiY10; //~ UInt_t E_SiY11; //~ UInt_t E_SiY12; //~ UInt_t E_SiY13; //~ UInt_t E_SiY14; //~ UInt_t E_SiY15; //~ UInt_t E_SiY16; UInt_t E_BaF1; UInt_t E_BaF2; UInt_t E_BaF3; UInt_t E_BaF4; UInt_t E_BaF5; UInt_t E_BaF6; UInt_t E_xray1; UInt_t E_xray2; UInt_t E_xray3; //~ UInt_t t_SiX1; //~ UInt_t t_SiX2; //~ UInt_t t_SiX3; //~ UInt_t t_SiX4; //~ UInt_t t_SiX5; //~ UInt_t t_SiX6; //~ UInt_t t_SiX7; //~ UInt_t t_SiX8; //~ UInt_t t_SiX9; //~ UInt_t t_SiX10; //~ UInt_t t_SiX11; //~ UInt_t t_SiX12; //~ UInt_t t_SiX13; //~ UInt_t t_SiX14; //~ UInt_t t_SiX15; //~ UInt_t t_SiX16; //~ UInt_t t_SiY1; //~ UInt_t t_SiY2; //~ UInt_t t_SiY3; //~ UInt_t t_SiY4; //~ UInt_t t_SiY5; //~ UInt_t t_SiY6; //~ UInt_t t_SiY7; //~ UInt_t t_SiY8; //~ UInt_t t_SiY9; //~ UInt_t t_SiY10; //~ UInt_t t_SiY11; //~ UInt_t t_SiY12; //~ UInt_t t_SiY13; //~ UInt_t t_SiY14; //~ UInt_t t_SiY15; //~ UInt_t t_SiY16; UInt_t t_BaF_NOdelay1; UInt_t t_BaF_NOdelay2; UInt_t t_BaF_NOdelay3; UInt_t t_BaF_NOdelay4; UInt_t t_BaF_NOdelay5; UInt_t t_BaF_NOdelay6; UInt_t t_BaF_delayA1; UInt_t t_BaF_delayA2; UInt_t t_BaF_delayA3; UInt_t t_BaF_delayA4; UInt_t t_BaF_delayA5; UInt_t t_BaF_delayA6; UInt_t t_BaF_delayB1; UInt_t t_BaF_delayB2; UInt_t t_BaF_delayB3; UInt_t t_BaF_delayB4; UInt_t t_BaF_delayB5; UInt_t t_BaF_delayB6; UInt_t t_xray1; UInt_t t_xray2; UInt_t t_xray3; UInt_t PHOTON_trigger; UInt_t PHOTON_vulom_timestamp_lo; UInt_t PHOTON_vulom_timestamp_hi; UInt_t PHOTON_tpat; UInt_t PHOTON_WR_timestamp1; UInt_t PHOTON_WR_timestamp2; UInt_t PHOTON_WR_timestamp3; UInt_t PHOTON_WR_timestamp4; UInt_t PHOTON_mega_clock; UInt_t PHOTON_trafo; UInt_t PHOTON_I_cool; UInt_t PHOTON_U_cool; UInt_t PHOTON_jet_S1; UInt_t PHOTON_jet_S2; // List of branches TBranch b_TRIGGER; //! TBranch b_EVENTNO; //! TBranch b_Si_HV; //! TBranch b_Si_current; //! TBranch b_PARTICLE_trigger; //! TBranch b_PARTICLE_vulom_timestamp_lo; //! TBranch b_PARTICLE_vulom_timestamp_hi; //! TBranch b_PARTICLE_tpat; //! TBranch b_PARTICLE_WR_timestamp1; //! TBranch b_PARTICLE_WR_timestamp2; //! TBranch b_PARTICLE_WR_timestamp3; //! TBranch b_PARTICLE_WR_timestamp4; //! TBranch b_PARTICLE_mega_clock; //! TBranch b_PARTICLE_trafo; //! TBranch b_PARTICLE_I_cool; //! TBranch b_PARTICLE_U_cool; //! TBranch b_PARTICLE_jet_S1; //! TBranch b_PARTICLE_jet_S2; //! TBranch b_RATE_Si_ON_before_lmu; //! TBranch b_RATE_Si_ON_before_dt; //! TBranch b_RATE_Si_ON_after_dt; //! TBranch b_RATE_Si_ON_after_red; //! TBranch b_RATE_Si_OFF_before_lmu; //! TBranch b_RATE_Si_OFF_before_dt; //! TBranch b_RATE_Si_OFF_after_dt; //! TBranch b_RATE_Si_OFF_after_red; //! TBranch b_RATE_Xray_ON_before_lmu; //! TBranch b_RATE_Xray_ON_before_dt; //! TBranch b_RATE_Xray_ON_after_dt; //! TBranch b_RATE_Xray_ON_after_red; //! TBranch b_RATE_Xray_OFF_before_lmu; //! TBranch b_RATE_Xray_OFF_before_dt; //! TBranch b_RATE_Xray_OFF_after_dt; //! TBranch b_RATE_Xray_OFF_after_red; //! TBranch b_RATE_RAW_Si_X; //! TBranch b_RATE_RAW_Si_Y; //! TBranch b_RATE_RAW_Xray1; //! TBranch b_RATE_RAW_Xray2; //! TBranch b_RATE_RAW_Xray3; //! TBranch b_RATE_RAW_BaF_OR; //! TBranch b_RATE_RAW_SiBaF; //! TBranch b_RATE_SiBaF_ON_before_lmu; //! TBranch b_RATE_SiBaF_ON_before_dt; //! TBranch b_RATE_SiBaF_ON_after_dt; //! TBranch b_RATE_SiBaF_ON_after_red; //! TBranch b_RATE_BaF_OFF_before_lmu; //! TBranch b_RATE_BaF_OFF_before_dt; //! TBranch b_RATE_BaF_OFF_after_dt; //! TBranch b_RATE_BaF_OFF_after_red; //! TBranch b_E_SiY[17]; TBranch b_E_SiX[17]; TBranch b_t_SiY[17]; TBranch b_t_SiX[17]; //~ TBranch b_E_SiX1; //! //~ TBranch b_E_SiX2; //! //~ TBranch b_E_SiX3; //! //~ TBranch b_E_SiX4; //! //~ TBranch b_E_SiX5; //! //~ TBranch b_E_SiX6; //! //~ TBranch b_E_SiX7; //! //~ TBranch b_E_SiX8; //! //~ TBranch b_E_SiX9; //! //~ TBranch b_E_SiX10; //! //~ TBranch b_E_SiX11; //! //~ TBranch b_E_SiX12; //! //~ TBranch b_E_SiX13; //! //~ TBranch b_E_SiX14; //! //~ TBranch b_E_SiX15; //! //~ TBranch b_E_SiX16; //! //~ TBranch b_E_SiY1; //! //~ TBranch b_E_SiY2; //! //~ TBranch b_E_SiY3; //! //~ TBranch b_E_SiY4; //! //~ TBranch b_E_SiY5; //! //~ TBranch b_E_SiY6; //! //~ TBranch b_E_SiY7; //! //~ TBranch b_E_SiY8; //! //~ TBranch b_E_SiY9; //! //~ TBranch b_E_SiY10; //! //~ TBranch b_E_SiY11; //! //~ TBranch b_E_SiY12; //! //~ TBranch b_E_SiY13; //! //~ TBranch b_E_SiY14; //! //~ TBranch b_E_SiY15; //! //~ TBranch b_E_SiY16; //! TBranch b_E_BaF1; //! TBranch b_E_BaF2; //! TBranch b_E_BaF3; //! TBranch b_E_BaF4; //! TBranch b_E_BaF5; //! TBranch b_E_BaF6; //! TBranch b_E_xray1; //! TBranch b_E_xray2; //! TBranch b_E_xray3; //! //~ TBranch b_t_SiX1; //! //~ TBranch b_t_SiX2; //! //~ TBranch b_t_SiX3; //! //~ TBranch b_t_SiX4; //! //~ TBranch b_t_SiX5; //! //~ TBranch b_t_SiX6; //! //~ TBranch b_t_SiX7; //! //~ TBranch b_t_SiX8; //! //~ TBranch b_t_SiX9; //! //~ TBranch b_t_SiX10; //! //~ TBranch b_t_SiX11; //! //~ TBranch b_t_SiX12; //! //~ TBranch b_t_SiX13; //! //~ TBranch b_t_SiX14; //! //~ TBranch b_t_SiX15; //! //~ TBranch b_t_SiX16; //! //~ TBranch b_t_SiY1; //! //~ TBranch b_t_SiY2; //! //~ TBranch b_t_SiY3; //! //~ TBranch b_t_SiY4; //! //~ TBranch b_t_SiY5; //! //~ TBranch b_t_SiY6; //! //~ TBranch b_t_SiY7; //! //~ TBranch b_t_SiY8; //! //~ TBranch b_t_SiY9; //! //~ TBranch b_t_SiY10; //! //~ TBranch b_t_SiY11; //! //~ TBranch b_t_SiY12; //! //~ TBranch b_t_SiY13; //! //~ TBranch b_t_SiY14; //! //~ TBranch b_t_SiY15; //! //~ TBranch b_t_SiY16; //! TBranch b_t_BaF_NOdelay1; //! TBranch b_t_BaF_NOdelay2; //! TBranch b_t_BaF_NOdelay3; //! TBranch b_t_BaF_NOdelay4; //! TBranch b_t_BaF_NOdelay5; //! TBranch b_t_BaF_NOdelay6; //! TBranch b_t_BaF_delayA1; //! TBranch b_t_BaF_delayA2; //! TBranch b_t_BaF_delayA3; //! TBranch b_t_BaF_delayA4; //! TBranch b_t_BaF_delayA5; //! TBranch b_t_BaF_delayA6; //! TBranch b_t_BaF_delayB1; //! TBranch b_t_BaF_delayB2; //! TBranch b_t_BaF_delayB3; //! TBranch b_t_BaF_delayB4; //! TBranch b_t_BaF_delayB5; //! TBranch b_t_BaF_delayB6; //! TBranch b_t_xray1; //! TBranch b_t_xray2; //! TBranch b_t_xray3; //! TBranch b_PHOTON_trigger; //! TBranch b_PHOTON_vulom_timestamp_lo; //! TBranch b_PHOTON_vulom_timestamp_hi; //! TBranch b_PHOTON_tpat; //! TBranch b_PHOTON_WR_timestamp1; //! TBranch b_PHOTON_WR_timestamp2; //! TBranch b_PHOTON_WR_timestamp3; //! TBranch b_PHOTON_WR_timestamp4; //! TBranch b_PHOTON_mega_clock; //! TBranch b_PHOTON_trafo; //! TBranch b_PHOTON_I_cool; //! TBranch b_PHOTON_U_cool; //! TBranch b_PHOTON_jet_S1; //! TBranch *b_PHOTON_jet_S2; //! // Set branch addresses fChain->SetBranchAddress("TRIGGER", &TRIGGER, &b_TRIGGER); fChain->SetBranchAddress("EVENTNO", &EVENTNO, &b_EVENTNO); fChain->SetBranchAddress("Si_HV", &Si_HV, &b_Si_HV); fChain->SetBranchAddress("Si_current", &Si_current, &b_Si_current); fChain->SetBranchAddress("PARTICLE_trigger", &PARTICLE_trigger, &b_PARTICLE_trigger); fChain->SetBranchAddress("PARTICLE_vulom_timestamp_lo", &PARTICLE_vulom_timestamp_lo, &b_PARTICLE_vulom_timestamp_lo); fChain->SetBranchAddress("PARTICLE_vulom_timestamp_hi", &PARTICLE_vulom_timestamp_hi, &b_PARTICLE_vulom_timestamp_hi); fChain->SetBranchAddress("PARTICLE_tpat", &PARTICLE_tpat, &b_PARTICLE_tpat); fChain->SetBranchAddress("PARTICLE_WR_timestamp1", &PARTICLE_WR_timestamp1, &b_PARTICLE_WR_timestamp1); fChain->SetBranchAddress("PARTICLE_WR_timestamp2", &PARTICLE_WR_timestamp2, &b_PARTICLE_WR_timestamp2); fChain->SetBranchAddress("PARTICLE_WR_timestamp3", &PARTICLE_WR_timestamp3, &b_PARTICLE_WR_timestamp3); fChain->SetBranchAddress("PARTICLE_WR_timestamp4", &PARTICLE_WR_timestamp4, &b_PARTICLE_WR_timestamp4); fChain->SetBranchAddress("PARTICLE_mega_clock", &PARTICLE_mega_clock, &b_PARTICLE_mega_clock); fChain->SetBranchAddress("PARTICLE_trafo", &PARTICLE_trafo, &b_PARTICLE_trafo); fChain->SetBranchAddress("PARTICLE_I_cool", &PARTICLE_I_cool, &b_PARTICLE_I_cool); fChain->SetBranchAddress("PARTICLE_U_cool", &PARTICLE_U_cool, &b_PARTICLE_U_cool); fChain->SetBranchAddress("PARTICLE_jet_S1", &PARTICLE_jet_S1, &b_PARTICLE_jet_S1); fChain->SetBranchAddress("PARTICLE_jet_S2", &PARTICLE_jet_S2, &b_PARTICLE_jet_S2); fChain->SetBranchAddress("RATE_Si_ON_before_lmu", &RATE_Si_ON_before_lmu, &b_RATE_Si_ON_before_lmu); fChain->SetBranchAddress("RATE_Si_ON_before_dt", &RATE_Si_ON_before_dt, &b_RATE_Si_ON_before_dt); fChain->SetBranchAddress("RATE_Si_ON_after_dt", &RATE_Si_ON_after_dt, &b_RATE_Si_ON_after_dt); fChain->SetBranchAddress("RATE_Si_ON_after_red", &RATE_Si_ON_after_red, &b_RATE_Si_ON_after_red); fChain->SetBranchAddress("RATE_Si_OFF_before_lmu", &RATE_Si_OFF_before_lmu, &b_RATE_Si_OFF_before_lmu); fChain->SetBranchAddress("RATE_Si_OFF_before_dt", &RATE_Si_OFF_before_dt, &b_RATE_Si_OFF_before_dt); fChain->SetBranchAddress("RATE_Si_OFF_after_dt", &RATE_Si_OFF_after_dt, &b_RATE_Si_OFF_after_dt); fChain->SetBranchAddress("RATE_Si_OFF_after_red", &RATE_Si_OFF_after_red, &b_RATE_Si_OFF_after_red); fChain->SetBranchAddress("RATE_Xray_ON_before_lmu", &RATE_Xray_ON_before_lmu, &b_RATE_Xray_ON_before_lmu); fChain->SetBranchAddress("RATE_Xray_ON_before_dt", &RATE_Xray_ON_before_dt, &b_RATE_Xray_ON_before_dt); fChain->SetBranchAddress("RATE_Xray_ON_after_dt", &RATE_Xray_ON_after_dt, &b_RATE_Xray_ON_after_dt); fChain->SetBranchAddress("RATE_Xray_ON_after_red", &RATE_Xray_ON_after_red, &b_RATE_Xray_ON_after_red); fChain->SetBranchAddress("RATE_Xray_OFF_before_lmu", &RATE_Xray_OFF_before_lmu, &b_RATE_Xray_OFF_before_lmu); fChain->SetBranchAddress("RATE_Xray_OFF_before_dt", &RATE_Xray_OFF_before_dt, &b_RATE_Xray_OFF_before_dt); fChain->SetBranchAddress("RATE_Xray_OFF_after_dt", &RATE_Xray_OFF_after_dt, &b_RATE_Xray_OFF_after_dt); fChain->SetBranchAddress("RATE_Xray_OFF_after_red", &RATE_Xray_OFF_after_red, &b_RATE_Xray_OFF_after_red); fChain->SetBranchAddress("RATE_RAW_Si_X", &RATE_RAW_Si_X, &b_RATE_RAW_Si_X); fChain->SetBranchAddress("RATE_RAW_Si_Y", &RATE_RAW_Si_Y, &b_RATE_RAW_Si_Y); fChain->SetBranchAddress("RATE_RAW_Xray1", &RATE_RAW_Xray1, &b_RATE_RAW_Xray1); fChain->SetBranchAddress("RATE_RAW_Xray2", &RATE_RAW_Xray2, &b_RATE_RAW_Xray2); fChain->SetBranchAddress("RATE_RAW_Xray3", &RATE_RAW_Xray3, &b_RATE_RAW_Xray3); fChain->SetBranchAddress("RATE_RAW_BaF_OR", &RATE_RAW_BaF_OR, &b_RATE_RAW_BaF_OR); fChain->SetBranchAddress("RATE_RAW_SiBaF", &RATE_RAW_SiBaF, &b_RATE_RAW_SiBaF); fChain->SetBranchAddress("RATE_SiBaF_ON_before_lmu", &RATE_SiBaF_ON_before_lmu, &b_RATE_SiBaF_ON_before_lmu); fChain->SetBranchAddress("RATE_SiBaF_ON_before_dt", &RATE_SiBaF_ON_before_dt, &b_RATE_SiBaF_ON_before_dt); fChain->SetBranchAddress("RATE_SiBaF_ON_after_dt", &RATE_SiBaF_ON_after_dt, &b_RATE_SiBaF_ON_after_dt); fChain->SetBranchAddress("RATE_SiBaF_ON_after_red", &RATE_SiBaF_ON_after_red, &b_RATE_SiBaF_ON_after_red); fChain->SetBranchAddress("RATE_BaF_OFF_before_lmu", &RATE_BaF_OFF_before_lmu, &b_RATE_BaF_OFF_before_lmu); fChain->SetBranchAddress("RATE_BaF_OFF_before_dt", &RATE_BaF_OFF_before_dt, &b_RATE_BaF_OFF_before_dt); fChain->SetBranchAddress("RATE_BaF_OFF_after_dt", &RATE_BaF_OFF_after_dt, &b_RATE_BaF_OFF_after_dt); fChain->SetBranchAddress("RATE_BaF_OFF_after_red", &RATE_BaF_OFF_after_red, &b_RATE_BaF_OFF_after_red); for(int a=1;a<17;a++) { fChain->SetBranchAddress(Form("E_SiX%d",a),&E_SiX[a], &b_E_SiX[a]); fChain->SetBranchAddress(Form("E_SiY%d",a),&E_SiY[a], &b_E_SiY[a]); fChain->SetBranchAddress(Form("t_SiX%d",a),&t_SiX[a], &b_t_SiX[a]); fChain->SetBranchAddress(Form("t_SiY%d",a),&t_SiY[a], &b_t_SiY[a]); } //~ fChain->SetBranchAddress("E_SiX1", &E_SiX1, &b_E_SiX1); //~ fChain->SetBranchAddress("E_SiX2", &E_SiX2, &b_E_SiX2); //~ fChain->SetBranchAddress("E_SiX3", &E_SiX3, &b_E_SiX3); //~ fChain->SetBranchAddress("E_SiX4", &E_SiX4, &b_E_SiX4); //~ fChain->SetBranchAddress("E_SiX5", &E_SiX5, &b_E_SiX5); //~ fChain->SetBranchAddress("E_SiX6", &E_SiX6, &b_E_SiX6); //~ fChain->SetBranchAddress("E_SiX7", &E_SiX7, &b_E_SiX7); //~ fChain->SetBranchAddress("E_SiX8", &E_SiX8, &b_E_SiX8); //~ fChain->SetBranchAddress("E_SiX9", &E_SiX9, &b_E_SiX9); //~ fChain->SetBranchAddress("E_SiX10", &E_SiX10, &b_E_SiX10); //~ fChain->SetBranchAddress("E_SiX11", &E_SiX11, &b_E_SiX11); //~ fChain->SetBranchAddress("E_SiX12", &E_SiX12, &b_E_SiX12); //~ fChain->SetBranchAddress("E_SiX13", &E_SiX13, &b_E_SiX13); //~ fChain->SetBranchAddress("E_SiX14", &E_SiX14, &b_E_SiX14); //~ fChain->SetBranchAddress("E_SiX15", &E_SiX15, &b_E_SiX15); //~ fChain->SetBranchAddress("E_SiX16", &E_SiX16, &b_E_SiX16); //~ fChain->SetBranchAddress("E_SiY1", &E_SiY1, &b_E_SiY1); //~ fChain->SetBranchAddress("E_SiY2", &E_SiY2, &b_E_SiY2); //~ fChain->SetBranchAddress("E_SiY3", &E_SiY3, &b_E_SiY3); //~ fChain->SetBranchAddress("E_SiY4", &E_SiY4, &b_E_SiY4); //~ fChain->SetBranchAddress("E_SiY5", &E_SiY5, &b_E_SiY5); //~ fChain->SetBranchAddress("E_SiY6", &E_SiY6, &b_E_SiY6); //~ fChain->SetBranchAddress("E_SiY7", &E_SiY7, &b_E_SiY7); //~ fChain->SetBranchAddress("E_SiY8", &E_SiY8, &b_E_SiY8); //~ fChain->SetBranchAddress("E_SiY9", &E_SiY9, &b_E_SiY9); //~ fChain->SetBranchAddress("E_SiY10", &E_SiY10, &b_E_SiY10); //~ fChain->SetBranchAddress("E_SiY11", &E_SiY11, &b_E_SiY11); //~ fChain->SetBranchAddress("E_SiY12", &E_SiY12, &b_E_SiY12); //~ fChain->SetBranchAddress("E_SiY13", &E_SiY13, &b_E_SiY13); //~ fChain->SetBranchAddress("E_SiY14", &E_SiY14, &b_E_SiY14); //~ fChain->SetBranchAddress("E_SiY15", &E_SiY15, &b_E_SiY15); //~ fChain->SetBranchAddress("E_SiY16", &E_SiY16, &b_E_SiY16); fChain->SetBranchAddress("E_BaF1", &E_BaF1, &b_E_BaF1); fChain->SetBranchAddress("E_BaF2", &E_BaF2, &b_E_BaF2); fChain->SetBranchAddress("E_BaF3", &E_BaF3, &b_E_BaF3); fChain->SetBranchAddress("E_BaF4", &E_BaF4, &b_E_BaF4); fChain->SetBranchAddress("E_BaF5", &E_BaF5, &b_E_BaF5); fChain->SetBranchAddress("E_BaF6", &E_BaF6, &b_E_BaF6); fChain->SetBranchAddress("E_xray1", &E_xray1, &b_E_xray1); fChain->SetBranchAddress("E_xray2", &E_xray2, &b_E_xray2); fChain->SetBranchAddress("E_xray3", &E_xray3, &b_E_xray3); //~ fChain->SetBranchAddress("t_SiX1", &t_SiX1, &b_t_SiX1); //~ fChain->SetBranchAddress("t_SiX2", &t_SiX2, &b_t_SiX2); //~ fChain->SetBranchAddress("t_SiX3", &t_SiX3, &b_t_SiX3); //~ fChain->SetBranchAddress("t_SiX4", &t_SiX4, &b_t_SiX4); //~ fChain->SetBranchAddress("t_SiX5", &t_SiX5, &b_t_SiX5); //~ fChain->SetBranchAddress("t_SiX6", &t_SiX6, &b_t_SiX6); //~ fChain->SetBranchAddress("t_SiX7", &t_SiX7, &b_t_SiX7); //~ fChain->SetBranchAddress("t_SiX8", &t_SiX8, &b_t_SiX8); //~ fChain->SetBranchAddress("t_SiX9", &t_SiX9, &b_t_SiX9); //~ fChain->SetBranchAddress("t_SiX10", &t_SiX10, &b_t_SiX10); //~ fChain->SetBranchAddress("t_SiX11", &t_SiX11, &b_t_SiX11); //~ fChain->SetBranchAddress("t_SiX12", &t_SiX12, &b_t_SiX12); //~ fChain->SetBranchAddress("t_SiX13", &t_SiX13, &b_t_SiX13); //~ fChain->SetBranchAddress("t_SiX14", &t_SiX14, &b_t_SiX14); //~ fChain->SetBranchAddress("t_SiX15", &t_SiX15, &b_t_SiX15); //~ fChain->SetBranchAddress("t_SiX16", &t_SiX16, &b_t_SiX16); //~ fChain->SetBranchAddress("t_SiY1", &t_SiY1, &b_t_SiY1); //~ fChain->SetBranchAddress("t_SiY2", &t_SiY2, &b_t_SiY2); //~ fChain->SetBranchAddress("t_SiY3", &t_SiY3, &b_t_SiY3); //~ fChain->SetBranchAddress("t_SiY4", &t_SiY4, &b_t_SiY4); //~ fChain->SetBranchAddress("t_SiY5", &t_SiY5, &b_t_SiY5); //~ fChain->SetBranchAddress("t_SiY6", &t_SiY6, &b_t_SiY6); //~ fChain->SetBranchAddress("t_SiY7", &t_SiY7, &b_t_SiY7); //~ fChain->SetBranchAddress("t_SiY8", &t_SiY8, &b_t_SiY8); //~ fChain->SetBranchAddress("t_SiY9", &t_SiY9, &b_t_SiY9); //~ fChain->SetBranchAddress("t_SiY10", &t_SiY10, &b_t_SiY10); //~ fChain->SetBranchAddress("t_SiY11", &t_SiY11, &b_t_SiY11); //~ fChain->SetBranchAddress("t_SiY12", &t_SiY12, &b_t_SiY12); //~ fChain->SetBranchAddress("t_SiY13", &t_SiY13, &b_t_SiY13); //~ fChain->SetBranchAddress("t_SiY14", &t_SiY14, &b_t_SiY14); //~ fChain->SetBranchAddress("t_SiY15", &t_SiY15, &b_t_SiY15); //~ fChain->SetBranchAddress("t_SiY16", &t_SiY16, &b_t_SiY16); fChain->SetBranchAddress("t_BaF_NOdelay1", &t_BaF_NOdelay1, &b_t_BaF_NOdelay1); fChain->SetBranchAddress("t_BaF_NOdelay2", &t_BaF_NOdelay2, &b_t_BaF_NOdelay2); fChain->SetBranchAddress("t_BaF_NOdelay3", &t_BaF_NOdelay3, &b_t_BaF_NOdelay3); fChain->SetBranchAddress("t_BaF_NOdelay4", &t_BaF_NOdelay4, &b_t_BaF_NOdelay4); fChain->SetBranchAddress("t_BaF_NOdelay5", &t_BaF_NOdelay5, &b_t_BaF_NOdelay5); fChain->SetBranchAddress("t_BaF_NOdelay6", &t_BaF_NOdelay6, &b_t_BaF_NOdelay6); fChain->SetBranchAddress("t_BaF_delayA1", &t_BaF_delayA1, &b_t_BaF_delayA1); fChain->SetBranchAddress("t_BaF_delayA2", &t_BaF_delayA2, &b_t_BaF_delayA2); fChain->SetBranchAddress("t_BaF_delayA3", &t_BaF_delayA3, &b_t_BaF_delayA3); fChain->SetBranchAddress("t_BaF_delayA4", &t_BaF_delayA4, &b_t_BaF_delayA4); fChain->SetBranchAddress("t_BaF_delayA5", &t_BaF_delayA5, &b_t_BaF_delayA5); fChain->SetBranchAddress("t_BaF_delayA6", &t_BaF_delayA6, &b_t_BaF_delayA6); fChain->SetBranchAddress("t_BaF_delayB1", &t_BaF_delayB1, &b_t_BaF_delayB1); fChain->SetBranchAddress("t_BaF_delayB2", &t_BaF_delayB2, &b_t_BaF_delayB2); fChain->SetBranchAddress("t_BaF_delayB3", &t_BaF_delayB3, &b_t_BaF_delayB3); fChain->SetBranchAddress("t_BaF_delayB4", &t_BaF_delayB4, &b_t_BaF_delayB4); fChain->SetBranchAddress("t_BaF_delayB5", &t_BaF_delayB5, &b_t_BaF_delayB5); fChain->SetBranchAddress("t_BaF_delayB6", &t_BaF_delayB6, &b_t_BaF_delayB6); fChain->SetBranchAddress("t_xray1", &t_xray1, &b_t_xray1); fChain->SetBranchAddress("t_xray2", &t_xray2, &b_t_xray2); fChain->SetBranchAddress("t_xray3", &t_xray3, &b_t_xray3); fChain->SetBranchAddress("PHOTON_trigger", &PHOTON_trigger, &b_PHOTON_trigger); fChain->SetBranchAddress("PHOTON_vulom_timestamp_lo", &PHOTON_vulom_timestamp_lo, &b_PHOTON_vulom_timestamp_lo); fChain->SetBranchAddress("PHOTON_vulom_timestamp_hi", &PHOTON_vulom_timestamp_hi, &b_PHOTON_vulom_timestamp_hi); fChain->SetBranchAddress("PHOTON_tpat", &PHOTON_tpat, &b_PHOTON_tpat); fChain->SetBranchAddress("PHOTON_WR_timestamp1", &PHOTON_WR_timestamp1, &b_PHOTON_WR_timestamp1); fChain->SetBranchAddress("PHOTON_WR_timestamp2", &PHOTON_WR_timestamp2, &b_PHOTON_WR_timestamp2); fChain->SetBranchAddress("PHOTON_WR_timestamp3", &PHOTON_WR_timestamp3, &b_PHOTON_WR_timestamp3); fChain->SetBranchAddress("PHOTON_WR_timestamp4", &PHOTON_WR_timestamp4, &b_PHOTON_WR_timestamp4); fChain->SetBranchAddress("PHOTON_mega_clock", &PHOTON_mega_clock, &b_PHOTON_mega_clock); fChain->SetBranchAddress("PHOTON_trafo", &PHOTON_trafo, &b_PHOTON_trafo); fChain->SetBranchAddress("PHOTON_I_cool", &PHOTON_I_cool, &b_PHOTON_I_cool); fChain->SetBranchAddress("PHOTON_U_cool", &PHOTON_U_cool, &b_PHOTON_U_cool); fChain->SetBranchAddress("PHOTON_jet_S1", &PHOTON_jet_S1, &b_PHOTON_jet_S1); fChain->SetBranchAddress("PHOTON_jet_S2", &PHOTON_jet_S2, &b_PHOTON_jet_S2);
152	Sat Mar 21 23:12:38 2020	Jan	Detectors	removed BaF detectors
After run 67 and before run 68, the BaF detectors have been removed in order to reduce the Compton background in the x-ray detectors.
567	Sun May 30 14:40:55 2021	Jan, Sophia	Detectors	real detector assignment	2021
********************************** GEM1800 @ 90deg (xray1) GLP2000 @ 35deg (xray2) GEM3000 @ 145deg (xray3) ********************************** Was noted wrongly in most calib runs.

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