Presentation is loading. Please wait.

Presentation is loading. Please wait.

HBD CDR Gas System and Monitoring Craig Woody BNL DC Upgrades/EC Meeting March 9, 2005.

Published byElmer Lewis Modified over 9 years ago

Similar presentations

Presentation on theme: "HBD CDR Gas System and Monitoring Craig Woody BNL DC Upgrades/EC Meeting March 9, 2005."— Presentation transcript:

1 HBD CDR Gas System and Monitoring Craig Woody BNL DC Upgrades/EC Meeting March 9, 2005

2 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/052 Requirements  Must deliver very high purity gas to the HBD More stringent demands than any other PHENIX gas system (O 2, H 2 O at the few ppm level) No leaks (  stainless steel, welded gas lines wherever possible) CF 4 is expensive (  recovery system)  Operates reliably with CF 4 CF 4 is a highly reactive and corrosive gas (reaction with water produces HF acid, dissociation produces F - ions)  Special concern about compatibility of materials  Must continuously monitor gas Absorbance due to H 2 O and O 2 can cause loss of photoelectrons

3 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/053 Proposed HBD Gas System CF 4 output gas collected, compressed, purified and reused L.Kotchenda

4 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/054 Gas System Costs Company Name Purchases Cost Dwyer Instruments $3 740.00 Tescom $1 100.00 Ashcroft Aprx.$800.00 ADI $2 000.00 RXI $3 930.00 Omega Engineering, Inc $108.00 Peter Paul Electronics Co $1 094.00 Khan $3 500.00 Miller Energy Inc $5 950.00 Asco $169.00 Swagelok $4 021.10 Newark $810.00 Matheson Aprx.$2 500.00 Hastings Instruments Aprx.$4 800.00 Agilent $1 368.00 National Instruments Aprx.$3 490.00 Total $39 380.1 Two Racks -~$1500 Computer -~$1500 500L buffer cost - $2 500.0 The labor cost is $ 15 000. Total: ~ $60K (without pipes, => + $20K) L.Kotchenda Needs update with some CF 4 compatible components

5 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/055 Affects of Impurities on VUV Transmission Must maintain careful control of oxygen and water levels O 2  5 ppm H 2 O  10 ppm B.Azmoun

6 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/056 Transmission vs ppm’s of O 2 and H 2 O B.Azmoun

7 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/057 ( i = 1120, 1130,…,2000) Calculation of N pe vs ppm’s of Gas Impurities (H 2 O, O 2 ) B.Azmoun (n -1) =1.00062

8 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/058 N pe vs ppm’s of H 2 O and O 2 Parameters of Calc. * Length of CF 4 radiator= 50cm * (CF 4 )=1.00062 *  =1 (energy of incident e- ) * Integrated over Wavelength Range:108 - 200nm {6.2-11.5eV (CF 4 cut-off)} * Corrected for mesh+GEM trans (0.885 x 0.83) * Extrapolated N pe down to 108nm assuming 100% trans. between 112 and 108nm (CsI QE also extrapolated over same range) * Using WIS QE plot: makes insignificant difference compared with BNL measuement B.Azmoun

9 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/059 Gas Transmission Monitoring  Measure UV transmission of input gas and output gas of each detector half separately  Movable mirror directs beam down four separate optical paths  Maximize beam intensity so can use CsI vacuum photodiodes for readout (gain stability with nanoamps of photocurrent)  Built mainly from commercial parts (McPherson) D 2 Lamp Monochromator Focusing elements Input gas Output gas HBD East Output gas HBD West Reference CsI Photodiodes MgF 2 WindowsGas Cells MgF 2 Windows Movable Mirror

10 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/0510 CsI QE Monitoring  Install UV lamp(s) inside detector  Run detector in reverse bias mode and measure DC current (special calibration mode)  QE monitoring only done rather infrequently (every few weeks ?)

11 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/0511 Additional Slides

12 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/0512 HBD in PHENIX  34 cm R min = 4.5 cm w/o VTX R min = 72 cm w/VTX R max = 55 cm w/o VTX R max = 22 cm w/VTX Weight ~ 6 kg (< 15 kg total) 84 SHV cables 1 gas inlet (1/2”) 1 gas outlet (1”) per side

13 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/0513 Test of a Triple GEM Detector in PHENIX 55 Fe spectrum with Ar/CO 2 in Lab Triple GEM detector installed close to beam pipe ( R ~ 50 cm) Detector was sensitive to soft background (thin window) Tested using using both Ar/CO 2 (70/30) and CF 4 Exhibited no sparking or excessive gain instabilities.

14 C.Woody, HBD CDR, DC Upgrades/EC Meeting, 3/9/0514 Test of a Triple GEM Detector in PHENIX 55 Fe specta with CF 4 with full luminosity Au-Au collisions at RHIC Detector gain and resolution was stable Observed some low level background (< 50 e’s) during part of one run - depended strongly on beam conditions. - mostly out of time with beam-beam collisions Conclusion: There appears to be no fundamental problem with operating a GEM detector close to the beam pipe at RHIC

Download ppt "HBD CDR Gas System and Monitoring Craig Woody BNL DC Upgrades/EC Meeting March 9, 2005."

Similar presentations

GEM Chambers at BNL The detector from CERN, can be configured with up to 4 GEMs The detector for pad readout and drift studies, 2 GEM maximum.

GEM Chambers at BNL The detector from CERN, can be configured with up to 4 GEMs The detector for pad readout and drift studies, 2 GEM maximum.
Prototype Progress… The Stony Brook Crew & Bob Azmoun, Craig Woody.

Prototype Progress… The Stony Brook Crew & Bob Azmoun, Craig Woody.
HBD Meeting 4/25/06 SB and BNL Crew. 4/25/06 B. Azmoun 2 Installation of HBD into PHENIX Transported HBD from USB under gas (CF4) flow (maintained ~ 1Torr.

HBD Meeting 4/25/06 SB and BNL Crew. 4/25/06 B. Azmoun 2 Installation of HBD into PHENIX Transported HBD from USB under gas (CF4) flow (maintained ~ 1Torr.
1 HBD Update Itzhak Tserruya DC meeting, April 9, 2008 April 9, 2008.

1 HBD Update Itzhak Tserruya DC meeting, April 9, 2008 April 9, 2008.
Lecture 3 INFRARED SPECTROMETRY

Lecture 3 INFRARED SPECTROMETRY
Lecture 2b. Electromagnetic Spectrum Visible range: =380-750 nm Ultraviolet: =190-380 nm Low energyHigh energy.

Lecture 2b. Electromagnetic Spectrum Visible range: = nm Ultraviolet: = nm Low energyHigh energy.
4-1 Chap. 7 (Optical Instruments), Chap. 8 (Optical Atomic Spectroscopy) General design of optical instruments Sources of radiation Selection of wavelength.

4-1 Chap. 7 (Optical Instruments), Chap. 8 (Optical Atomic Spectroscopy) General design of optical instruments Sources of radiation Selection of wavelength.
HBD Transmission Monitor: Update on Assembly & Testing HBD Working Group Meeting 8/29/06 B. Azmoun Brookhaven National Lab.

HBD Transmission Monitor: Update on Assembly & Testing HBD Working Group Meeting 8/29/06 B. Azmoun Brookhaven National Lab.
CsI Photocathode Production and Testing

CsI Photocathode Production and Testing
1 HBD Construction status Itzhak Tserruya DC meeting, BNL, February, 2006 Plans for Run-6 Box construction GEM assembly and testing Status of urgent items.

1 HBD Construction status Itzhak Tserruya DC meeting, BNL, February, 2006 Plans for Run-6 Box construction GEM assembly and testing Status of urgent items.
1 AGENDA: HBD NIM paper#2 Itzhak HBD HV system HBD monitoring Acceptance and total number of channels Proposal status Large GEM tests Lev Monte Carlo Ilia.

1 AGENDA: HBD NIM paper#2 Itzhak HBD HV system HBD monitoring Acceptance and total number of channels Proposal status Large GEM tests Lev Monte Carlo Ilia.
A RICH Detector for strangeness physics A RICH Detector for strangeness physics in Hall A at Jefferson Lab in Hall A at Jefferson Lab. Why. How. Main Characteristics/Expected.

A RICH Detector for strangeness physics A RICH Detector for strangeness physics in Hall A at Jefferson Lab in Hall A at Jefferson Lab. Why. How. Main Characteristics/Expected.
RICH 2007Dirk Wiedner / LHCb1 The Usage of N-Perflourcarbons as RICH Radiators.

RICH 2007Dirk Wiedner / LHCb1 The Usage of N-Perflourcarbons as RICH Radiators.
Cube Measurements Tent Crew. Scintillation BNL 241 Am Semi- collimated  Spectralon Diffuse UV Reflector SBD  -Trigger Scint. Light Poisson.

Cube Measurements Tent Crew. Scintillation BNL 241 Am Semi- collimated  Spectralon Diffuse UV Reflector SBD  -Trigger Scint. Light Poisson.
Preliminary Results from a Trial Beam Test of the Small HBD Prototype at LEGS Bob Azmoun BNL HBD Working Group Meeting May 10, 2005.

Preliminary Results from a Trial Beam Test of the Small HBD Prototype at LEGS Bob Azmoun BNL HBD Working Group Meeting May 10, 2005.
B.Azmoun, S.Stoll Brookhaven National Lab HBD Meeting 1/6/09.

B.Azmoun, S.Stoll Brookhaven National Lab HBD Meeting 1/6/09.
1 Stony Brook Update: A bit more on Negative Ions T.K. Hemmick for the Tent Crew.

1 Stony Brook Update: A bit more on Negative Ions T.K. Hemmick for the Tent Crew.
1 HBD Commissioning Itzhak Tserruya DC meeting, BNL, April 11, 2007.

1 HBD Commissioning Itzhak Tserruya DC meeting, BNL, April 11, 2007.
1 HBD Plans for run-6 Itzhak Tserruya DC meeting, BNL, October 12, 2005 HBD status Plans for run 6 ( Back-up: details presented in Upgrades meeting yesterday)

1 HBD Plans for run-6 Itzhak Tserruya DC meeting, BNL, October 12, 2005 HBD status Plans for run 6 ( Back-up: details presented in Upgrades meeting yesterday)
Update on the HBD Craig Woody BNL DC Meeting June 8, 2005.

Update on the HBD Craig Woody BNL DC Meeting June 8, 2005.

Similar presentations

Ads by Google