Difference between revisions of "Minutes-1-22-2015"

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== Gas puzzle ==
 
== Gas puzzle ==
  
- Lubomir investigated the effects of the alcohol in the gas using Garfield. Experimental results (first plot) from the FTD detector at HERA show increase of the drift velocity with the increase of the ethanol in their Ar/propane mixture. Garfield simulations (next two plots) describe this results well enough. Contrary, adding 1-propanol in our gas mixtures of Ar/CO2 makes the gas slower, and surprisingly increases the gain significantly - 70% if adding just 1% (absolute) alcohol. Thus, a mixture of 54/45/1 Ar/CO2/propanol explains (next two plots) both, the CDC time-to-distance and the increase by a factor of ~4 of the gain compared to the 50/50 mixture. It's difficult to estimate the propanol percentage during the last run. If using the vapor pressures and assuming equilibrium, it must be 0.2-0.5% ranging due to the temperature and pressure variation in the alcohol bubbler. If roughly estimate the alcohol consumptions it must be closer to 1%.
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- Lubomir investigated the effects of the alcohol in the gas using Garfield. Experimental results (first plot) from the FTD detector at HERA show increase of the drift velocity with the increase of the ethanol in their Ar/propane mixture. Garfield simulations (next two plots) describe this results well enough. Contrary, adding 1-propanol in our gas mixtures of Ar/CO2 makes the gas slower, and surprisingly increases the gain significantly - 70% if adding just 1% (absolute) alcohol. Thus, a mixture of 54/45/1 Ar/CO2/propanol explains (next two plots) both, the CDC time-to-distance and the increase by a factor of ~4 of the gain compared to the 50/50 mixture. It's difficult to estimate the propanol percentage during the last run. If using the vapor pressures and assuming equilibrium, it must be 0.2-0.5% ranging due to the temperature and pressure variations in the alcohol bubbler. If roughly estimate the alcohol consumptions it must be closer to 1%.
  
 
- At least the CO2 content will be known soon. We have received a CO2 sensor (0-100% range) that is based on UV light absorption by the CO2 molecule. Needs calibration, will use a certified Ar/CO2 bottle ~40/60, and pure CO2.
 
- At least the CO2 content will be known soon. We have received a CO2 sensor (0-100% range) that is based on UV light absorption by the CO2 molecule. Needs calibration, will use a certified Ar/CO2 bottle ~40/60, and pure CO2.
  
- Naomi showed her latest results (linked above) from CMU using the prototype. She used 50/50 55/45 and 60/40 Ar/CO2 gas mixtures. There's an big increase in the gain between 55/45 and 60/40 but not that much between 50/50 and 55/45, If compared with the JLab results with no filed the mixture must be between 55/45 and 60/40 if there's no alcohol. Also the JLab results correspond to tracks at much smaller angles as compared to the almost perpendicular cosmic muons, which should also be corrected for.  
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- Naomi showed her latest results (linked above) from CMU using the prototype. She used 50/50 55/45 and 60/40 Ar/CO2 gas mixtures. There's an big increase in the gain between 55/45 and 60/40 but not that much between 50/50 and 55/45, If compared with the JLab results with no filed the mixture must be between 55/45 and 60/40 if there's no alcohol. Also the JLab results correspond to tracks at much smaller angles as compared to the almost perpendicular cosmic muons, which should be corrected for. Naomi will do also measurements with the JLab electronics.
  
 
== FDC update ==
 
== FDC update ==
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== Electronics ==
 
== Electronics ==
  
- Nick and Chris started modifying the HVBs: adding capacitors, milling retainers. Some dust (like rust) and fibers were found on the caps of the top HVBs - picture linked above.
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- All CDC HVBs will be installed by Monday and the-routing of the HV cables will be finished in the first week of February. Fernando: some of the pins of the pre-amp connector on the HVbs were bent; brackets are installed that prevent removing the pre-amps. To replace it you need to disconnect the whole HVB.  
  
- Cody: 24 (out 25) new fADCs were tested and only two failed - much better than with the previous production. Cody replaced 10 fADC125 (see logbook entry) following the list of bad channels (with missing bits) given to him by Naomi and Vlad. Will try to fix the bad channels if possible or ship them for repair.   
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- Cody has made changes in the firmware related to the block transfer (larger FIFO in the front-end chip) and trigger rate issues. Will test all these changes at once.   
  
 
== Engineering ==
 
== Engineering ==
  
- Dave presented his plan for re-using an old AC power reset module (from Hall B) for shutting down the chiller. It has an AC contactor controlled by the PLC using same logic as for the MPOD interlock. (presentation attached).  
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- Dave has prepared the box for the FDC chiller shut off to be connected when the chiller is back. The PLC software is ready, as well.  
  
- The FDC chiller has been finally shipped for repair.
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- Dave is going to install a thermo-couple in the alcohol refrigerator, connected to the PLC for monitoring the temperature.
 
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Revision as of 19:52, 23 January 2015

January 22, 2015 FDC+CDC meeting

Connection

  1. Instructions for Bluejeans meeting connection
  2. FDC meeting ID: 290664653
  3. To join via a Web Browser, go to the page [1] https://bluejeans.com/290664653.

Agenda

  1. Collaboration meeting agenda
  2. Gas puzzle
  3. CDC update (Mike)
  4. FDC update
    • Gain calibration (Vlad)
  5. Electronics (Fernando, Cody)
    • HVB refurbishment (Nick, Chris)
  6. Engineering (Dave)
  7. Other
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