Difference between revisions of "GEMS"
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+ | Below is a link to a youtube video of ISU's GEM detector. The detector contains 3 GEM foils and has an Argon-CO2 mixture of 90/20 flowing through it. The Drift voltage is about -3200 Volts and the GEM voltage is about -2900 Volts. Signal sizes are about 5-15 mV after being filtered and amplified. | ||
+ | |||
+ | http://www.youtube.com/watch?v=OL_gg57zr3Q&feature=email | ||
+ | |||
A collection of materials related to the use of Gas Electron Multipliers (GEMs) in ionization chamber. | A collection of materials related to the use of Gas Electron Multipliers (GEMs) in ionization chamber. | ||
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[[GEM_Cosmic_V792_Measurements]] | [[GEM_Cosmic_V792_Measurements]] | ||
<br> | <br> | ||
− | + | [[GEM2012]]<br> | |
+ | [[GEM Efficiency]]<br> | ||
+ | [[Qweak GEM installation log book]]<br> | ||
[[ArCO2_IonizationPhysics]] | [[ArCO2_IonizationPhysics]] | ||
<br> | <br> | ||
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[[GEM_References]] | [[GEM_References]] | ||
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+ | [[GEM_Leakage_Current_Measurement]] | ||
+ | |||
+ | [[GEM Foil Cleaning Methods]] | ||
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+ | [[GEM Foils Framing]] | ||
+ | |||
+ | [[GEM_Pics]] | ||
At 25 C, 101.3kPa of and ideal gas = 24.47 Liters | At 25 C, 101.3kPa of and ideal gas = 24.47 Liters | ||
+ | <pre> | ||
+ | |||
+ | Norco Gas quote | ||
+ | |||
+ | Part # P103535VAR = $50 portable bottle of 65% Ar 35% Ethane (10 day lead time) | ||
+ | |||
+ | Part # NLB417 = $75 regulator for flammable gasses flow rate is 0.5 L/hr. | ||
+ | </pre> | ||
Idea to check GEM foils | Idea to check GEM foils | ||
− | See if you can measure the current difference between a good and bad GEM foil using by putting 300 Volts across the leads with a digital volt meter set to measure the current (ie put one lead from | + | See if you can measure the current difference between a good and bad GEM foil using by putting 300 Volts across the leads with a digital volt meter set to measure the current (ie put one lead from the HV power supply onto the DVM and then the other DVM lead onto the GEM foil). Set the DVM to mV scale and don't set it to measure current. |
The DVM has a 10meg input impedance, so if its voltage range is instead used as a current meter, the 200mV range is the same as a 20 nanoamp range. So if the DVM indicates 1mV, it is actually measuring 100 picoamperes. | The DVM has a 10meg input impedance, so if its voltage range is instead used as a current meter, the 200mV range is the same as a 20 nanoamp range. So if the DVM indicates 1mV, it is actually measuring 100 picoamperes. | ||
Latest revision as of 03:18, 8 December 2012
Below is a link to a youtube video of ISU's GEM detector. The detector contains 3 GEM foils and has an Argon-CO2 mixture of 90/20 flowing through it. The Drift voltage is about -3200 Volts and the GEM voltage is about -2900 Volts. Signal sizes are about 5-15 mV after being filtered and amplified.
http://www.youtube.com/watch?v=OL_gg57zr3Q&feature=email
A collection of materials related to the use of Gas Electron Multipliers (GEMs) in ionization chamber.
Vendors for parts
GEM HV Distribution Network
PCB_HomeEtching
GEM_HRRL_Photons
GEM_Cosmic_V792_Measurements
GEM2012
GEM Efficiency
Qweak GEM installation log book
ArCO2_IonizationPhysics
Laboratory for Detector Science
GEM_Leakage_Current_Measurement
At 25 C, 101.3kPa of and ideal gas = 24.47 Liters
Norco Gas quote Part # P103535VAR = $50 portable bottle of 65% Ar 35% Ethane (10 day lead time) Part # NLB417 = $75 regulator for flammable gasses flow rate is 0.5 L/hr.
Idea to check GEM foils
See if you can measure the current difference between a good and bad GEM foil using by putting 300 Volts across the leads with a digital volt meter set to measure the current (ie put one lead from the HV power supply onto the DVM and then the other DVM lead onto the GEM foil). Set the DVM to mV scale and don't set it to measure current. The DVM has a 10meg input impedance, so if its voltage range is instead used as a current meter, the 200mV range is the same as a 20 nanoamp range. So if the DVM indicates 1mV, it is actually measuring 100 picoamperes.
12 Volt power supply system.
http://www.lnf.infn.it/esperimenti/imagem/doc/NIMA_46128.pdf