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User name adev
Log entry time 03:06:24 on June 3, 2000
Entry number 42921
keyword=End_of_Run_1708
****************************
Run Number: 1708
End of Run Comment:
Tar=LH2-15cm,Type=pion_prod,Thcm=155.,Pmom=0.74180,Emom=3.66000,Ene=4.535,Angle_e=14.075,Angle_h=34.731
Time of run = 33.468767 min
Av. current (on 3x) = 25.123473 uA
Av. current (on 1x) = 25.033389 uA
| on 1x | on 3x | on 10x
Av. charge (mC)| 50.2702 | 50.4511 | 50.5981
up-down (mC)| -0.3576 | -0.3927 | -0.1328
Trigger | Scaler/charge(3x)|Scaler/time/ps| Scaler | Prescale| Scaler/charge(1x)
1 | 1455457.4 /mC | 7.313 Hz | 73429427 | 5000 | 1460694.9 /mC
2 | 88227.9 /mC | 4.433 Hz | 4451193 | 500 | 88545.4 /mC
3 | 5201071.7 /mC | 9.333 Hz | 262399790 | 14000 | 5219788.1 /mC
4 | 119818.3 /mC | 6.021 Hz | 6044964 | 500 | 120249.4 /mC
5 | 25937.1 /mC | 651.630 Hz | 1308556 | 1 | 26030.5 /mC
output 623.538 Hz
Av. deadtime from accepted triggers = 0.0813
Av. deadtime from gated scalers = 0.0923
Trigger | Plus Helicity | Minus Helicity | Sum
1 | 36618.514 Hz | 36536.058 Hz | 36566.145 Hz
2 | 2220.6974 Hz | 2213.906 Hz | 2216.5905 Hz
3 | 130801.5 Hz | 130615.81 Hz | 130668.98 Hz
4 | 3013.7683 Hz | 3008.357 Hz | 3010.2513 Hz
5 | 653.23737 Hz | 653.72208 Hz | 651.63043 Hz
output | 625.31175 Hz | 622.58958 Hz | 623.538 Hz
Accepted triggers = 1252142.0
Time of run = 33.468767 min
Time of run h- = 16.54541 min
Time of run h+ = 16.544548 min
1-(sum of time hel + and -)/( run time) = 1.1318e-02
helicity | Gate on + and run | Gate on - and run | Gate on run
+ | 11.289132 Hz | 0.0 Hz | 11.28963 Hz
- | 0.0 Hz | 11.289132 Hz | 11.289132 Hz
Signal | Gate on + and run | Gate on - and run | Gate on run |
| Charge (C) | Charge (C) | Charge (C)
upstream | 0.0247922 | 0.0247503 | 0.0500914
upstream 3x | 0.0248710 | 0.0248304 | 0.0502547
upstream 10x| 0.0250090 | 0.0249677 | 0.0505317
downstream | 0.0249692 | 0.0249271 | 0.0504490
downstream 3x | 0.0250644 | 0.0250242 | 0.0506474
downstream 10x| 0.0250741 | 0.0250331 | 0.0506645
Signal | Asymmetry
|
upstream | -8.45738510e-04
upstream 3x | -8.16878400e-04
upstream 10x| -8.26385100e-04
downstream | -8.43749940e-04
downstream 3x | -8.02577830e-04
downstream 10x| -8.18245680e-04
****************************
End-of-run EPICS data for Run Number 1708 at Sat Jun 3 03:06:10 EDT 2000
Electron D1 momentum : 3.66
Electron arm angle : 14.0744
Hadron D1 momentum : 0.7418
Hadron arm angle : 34.7306
Tiefenbach Hall A energy : 4524.96
Electron arm mispointing (HPT) : 3.68805
Hadron arm mispointing (HPT) : -2.83368
Electron Q1 power supply current : 2753.8
Electron Q1 momentum : 3.66035
Electron Q1 gauss meter : -0.23315
Electron Q1 power supply polarity : 0
Electron Q2 power supply current : 1576.19
Electron Q2 momentum : 3.66045
Electron Q2 gauss meter : 0.8297
Electron Q2 power supply polarity : 1
Electron D1 power supply current : 1325.66
Electron D1 momentum : 3.66
Electron D1 NMR : 1.35574
Electron Q3 power supply current : 1457.19
Electron Q3 momentum : 3.66018
Electron Q3 gauss meter : -0.7267
Electron Q3 power supply polarity : 1
Hadron Q1 power supply current : 557.865
Hadron Q1 momentum : 0.741906
Hadron Q1 gauss meter : 0.014235
Hadron Q1 power supply polarity : 1
Hadron Q2 power supply current : 319.155
Hadron Q2 momentum : 0.741588
Hadron Q2 gauss meter : -0.16888
Hadron Q2 power supply polarity : 1
Hadron D1 power supply current : 252.955
Hadron D1 momentum : 0.7418
Hadron D1 NMR : 0.275273
Hadron Q3 power supply current : 295.397
Hadron Q3 momentum : 0.742374
Hadron Q3 gauss meter : -0.13295
Hadron Q3 power supply polarity : 0
Average current of the two cavities : 25.8541
Current on Unser monitor : 22.0893
Current on Upstream bcm : 25.751
Current on Downstream bcm : 25.9572
Upstream Cavity Coefficient : 77
Downstream Cavity Coefficient : 77.57
Current on IBC0L02 (source) : 26.1772
MBSY1c Hall A Beam energy : 4537.98
MBSY1c magnet current (amp) : 189.27
MBSY1c Bdl : 1.13246e+06
MBSY3c Hall C Beam energy : 6729.4
Tiefenbach Hall A energy : 4524.98
Tiefenbach Hall C energy : 6702.57
Delta(E)/E width (MV_AI_DXWID) : 3.38444
IPM1H04A.XPOS : 0.57409
IPM1H04A.YPOS : -0.984908
IPM1H04B.XPOS : -0.0206457
IPM1H04B.YPOS : 0.00654965
Electron Arm Collimator : 0.616992
Hadron Arm Collimator : 0.61499
HacE_HPM_LVDT:VALr : -6789
HacE_VPM_LVDT:VALr : 1419
HacE_HPE1313A:0_Ch58 : -0.187012
HacE_HPE1313A:0_Ch55 : 26.2695
HacE_HPE1313A:0_Ch54 : -0.000488281
HacE_alignROLL : 0.345306
HacE_alignPITCH : -0.102623
HacE_alignHPT : 3.68697
HacH_HPM_LVDT:VALr : -7
HacH_VPM_LVDT:VALr : -740
HacH_HPE1313A:0_Ch58 : -0.509277
HacH_HPE1313A:0_Ch55 : 24.8047
HacH_HPE1313A:0_Ch54 : -0.816406
HacH_alignROLL : -0.332592
HacH_alignPITCH : -0.0468613
HacH_alignHPT : -2.83365
haBDSPOS : 5.35401e+06
haL1_Fan_frequency_R : 0
haL2_Fan_frequency_R : 62.5
haL3_Fan_frequency_R : 0
haH2_P_Fill_Target_R : 24.63
haH2_P_Exhaust_R : 24
haH2_P_Fill_Bottle_R : 21.09
haH2_DP_Fill_Exhaust_R : 0.0054
haD2_P_Fill_Target_R : 0
haD2_P_Exhaust_R : 0
haD2_P_Fill_Bottle_R : 0
haD2_DP_Fill_Exhaust_R : 26.779
haSC200_6_Sensor_1_R : 246.47
haSC200_6_Sensor_2_R : 21.81
haSC200_6_Sensor_3_R : 108.94
haSC200_6_Sensor_4_R : 109.87
haHe_Omega_DPG_Sensor_R : -0.052
haITC502_1_Sensor_1_R : 50.26
haITC502_1_Sensor_2_R : 50.67
haITC502_1_Sensor_3_R : 60.03
haITC502_2_Sensor_1_R : 19
haITC502_2_Sensor_2_R : 19
haITC502_2_Sensor_3_R : 19.21
haITC502_4_Sensor_1_R : 79.7
haITC502_4_Sensor_2_R : 19.2
haITC502_4_Sensor_3_R : 73.1
haITC502_5_Sensor_1_R : 50.99
haITC502_5_Sensor_2_R : 50.88
haITC502_5_Sensor_3_R : 98.1
haITC502_6_Sensor_1_R : 52.82
haITC502_6_Sensor_2_R : 57.56
haITC502_6_Sensor_3_R : 12.27
Electron VDC Top HV : 4.00244
Electron VDC Bottom HV : 4.00488
Hadron VDC Top HV : 4.00146
Hadron VDC Bottom HV : 3.98828
Electron Arm Collimator : 0.616992
Hadron Arm Collimator : 0.614941
FPP Chamber 1 Threshold : 3.88721
FPP Chamber 2 Threshold : 4.00977
FPP Chamber 3 Threshold : 6.95752
FPP Chamber 4 Threshold : 7.05127
FPP Chamber 1 Output gasflow : 5.42584
FPP Chamber 2 Output gasflow : 5.4118
FPP Chamber 3 Output gasflow : 3.36202
FPP Chamber 4 Output gasflow : 3.84685
For Fpp carbon door IN Limit= 0 means door is IN
For Fpp carbon door IN Limit= 1 means door is OUT
FPP 1.5 inch door left IN limit : 0
FPP 3.0 inch door left IN limit : 0
FPP 6.0 inch door left IN limit : 1
FPP 9.0 inch door left IN limit : 1
FPP 1.5 inch door right IN limit : 0
FPP 3.0 inch door right IN limit : 0
FPP 6.0 inch door right IN limit : 1
FPP 9.0 inch door right IN limit : 1
FPP Front Master HV Channel 0 : -0
FPP Front Master HV Channel 1 : -0
FPP Front Master HV Channel 2 : -0
FPP Front HV Channel 0 : -0
FPP Front HV Channel 1 : -0
FPP Front HV Channel 2 : -0
FPP Front HV Channel 3 : -0
FPP Front HV Channel 4 : -0
FPP Front HV Channel 5 : -0
FPP Front HV Channel 8 : -0
FPP Front HV Channel 9 : -0
FPP Front HV Channel 16 : -0
FPP Front HV Channel 11 : -0
FPP Front HV Channel 12 : -0
FPP Front HV Channel 13 : -0
FPP Rear Master HV Channel 0 : -0
FPP Rear Master HV Channel 1 : -0
FPP Rear Master HV Channel 2 : -0
FPP Rear HV Channel 0 : -0
FPP Rear HV Channel 1 : -0
FPP Rear HV Channel 2 : -0
FPP Rear HV Channel 3 : -0
FPP Rear HV Channel 4 : -0
FPP Rear HV Channel 5 : -0
FPP Rear HV Channel 9 : -0
FPP Rear HV Channel 10 : -0
FPP Rear HV Channel 11 : -0
FPP Rear HV Channel 12 : -0
FPP Rear HV Channel 13 : -0
FPP Rear HV Channel 16 : -0
FPP Rear HV Channel 17 : -0
FPP Rear HV Channel 18 : -0
FPP Rear HV Channel 19 : -0
FPP Rear HV Channel 20 : -0
FPP Rear HV Channel 21 : -0
Wien angle : 72.0696
Helicity Mode ON/OFF Random/Toggle : ON
Wien BDL : 1644.7
Wien field : 48.405
Laser attenuation Hall A : 290
Laser power Hall A : 72