1. Run Coordinator Weekly Report EG6 Commissioning October 19-25 Raffaella De Vita

2. Run Plan for the Week Data Taking at 5.78 GeV –Runs with different settings of RTPC HV and solenoid field (534 A, 450 A) for running condition –DAQ tests –Optimization of RTPC FEE Configuration Pass Change (5  1) on Thursday 22nd Data Taking at 1.2 GeV –Measurement of elastic scattering on He4 for calibration purpose: electron trigger only, 80 nA @ 50% LT –RTPC HV scans for choice of optimal condition for detection of alpha particle

3. Severe Problems: Power Outage on Tuesday 20th at 9:08 pm: –Power in the Counting Room maintained thanks to UPS and emergency generator –Torus and Solenoid ramped down –Loss of cryogenics –Power restored at 10:15 pm –Technicians and System Experts down in the Hall to recover various system –Recovery work continued till afternoon of Wednesday –Major Failure: –Target gas control box because of water dripping from higher levels –EC Sector 5 HV mainframe –Beam restored Wednesday night Fast and efficient recovery from difficult situation thanks to the hard work of all technicians and system experts Many thanks to Krister for repairing the target gas control box in record time

4. Other Problems Recurring trips of RTPC HV because of high humidity level. Seem to be connected to air flow from fan used for preamplifier cooling. Problem solved by modifying air pipe direction Noise on RTPC signal preamplifier still being investigated Bad RTPC FECs replaced Various accesses for DAQ related resets (bonuspc1, ec2) IC HV power supply DC trips in R2S2 (low gas flow) and R2S3 (limp gas bag, leak?) Sniffer alarm because of blown fuse EC discriminator in sector 1 outer replaced

5. Beam Quality Beam quality has been fairly good both at 5.78 and 1.2 GeV Problems noted: –Orbit locks intentionally turned off for a few days by MCC Orbit locks for restored on Monday –Few detector trips induced by bad beam position after long trips in the last few days; problem is being addressed

6. Choice of Solenoid Field Choice between 534 A and 450 A: 534 A provides better shielding from Moeller electrons 450 A gives better efficiency for detection of low momentum tracks in RTPC Measurement of trigger rate, IC rates, DC occupancy and currents indicate the running with 450 A Solenoid current can be sustained up to beam currents of 100 nA or more:  Trigger Rate @ 100 nA:  Electron Trigger ≈ 1.2 KHz  Neutral trigger ≈ 4 KHz (will be reduced by increasing thresholds)  DC Occupancy @ 50 nA ≈ 1 %  IC Rates @ 50 nA < 25 KHz on inner crystals

7. 5.787 GeV @ 50 nA Electron trigger rate ≈ 600 Hz

8. RTPC FEE Configuration Optimization of ADC (ALTRO chip) settings: starting point based on BONUS setup 100 samples/ch at 10 MHz sampling frequency  10 us sampling window dynamic pedestal subtraction: a variable pedestal is determined for each channel as the average of samples outside the acquisition window zero suppression for data volume reduction based on glitch filter Basic detection schemeFinal Samples

9. RTPC Response to  source Two  (Am241) sources installed in the RTPC Signal measured in self triggering mode Trigger signal from left and right RTPC sides are built as the sum of 16 GEM channels corresponding to the source closest pads Clear signal (40-80 mV) visible on the scope

10. 1.2 GeV Running Low energy run for RTPC calibration via the measurement of elastic scattering on He4: Elastic scattering cross section higher at low energy and small electron scattering angles Electron detected in CLAS Elastic events selected thanks to over-constrained kinematics (p e ↔  e ) 4-momentum of recoiling He4 can be calculated from electron variables Comparison with reconstructed tracks from RTPC allow to perform calibration and determine resolution and efficiency Running Conditions: Beam Current : 80-100 nA Target Pressure: 75 psig DAQ rate (Roc Lock mode): 1.0-1.2 KHz Dead Time: 50 % Electron Trigger Only: CC x EC (ECtot = 200 mV)

11. 1.2 GeV Running

12. Event Reconstruction

13. Elastic Events on He4

14. RTPC-CLAS Correlations

15. RTPC DAQ Running in ROC Lock mode Implementation of pipeline readout still in progress: –First tests showed that rate of few kHz can be achieved –Synchronization problems have been observed: Trigger is issued and processed by readout controller Data sampling is performed Acquired sample are stored in ADC Multi Event Buffer BUT NO READOUT OPERATION is initiated by the controller –Reason not understood –Communication with CERN Group to identify and implement a solution is in progress

16. Pending Issues High Frequency noise on the RTPC signal has been observed Noise seems to be associated with data read-out operation Noise level is of the order of 10-20 mV but varies in different crates (left side is more noisy) May not be a problem for the signal extraction because appears after the sampling window trigger sampling window readout starts

17. Plans for Upcoming Week Continue data taking at 1.2 GeV till Wednesday Data for different RTPC HV settings are been analyzed to choose optimal running condition for 6 GeV Pass change (1  5) after Tour on Wednesday Energy change (6.07 GeV) on Thursday Next Run Coordinator is Eric Voutier