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Measured baseline fluctuations and dark counts with Burle-Photonis MCP-PMT's Jean-Francois Genat and Edward May Dec 2009 –Jan 2010.

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Presentation on theme: "Measured baseline fluctuations and dark counts with Burle-Photonis MCP-PMT's Jean-Francois Genat and Edward May Dec 2009 –Jan 2010."— Presentation transcript:

1 Measured baseline fluctuations and dark counts with Burle-Photonis MCP-PMT's
Jean-Francois Genat and Edward May Dec 2009 –Jan 2010

2 Experimental conditions
10 and 25 mm 2” x 2” Burle-Photonis MCP tested mm MCP HV: kV Signals taken on one anode pad and fours neighbors grounded: mm MCP HV: kV Signals taken on one anode pad and fours neighbors grounded: Use Ed’s calibrated test setup 408nm light set at 100 Photo-Electrons TDS 6154C 18GHz abw from Tek

3 Signals 408nm laser 100 Photo-Electrons
Conclusions: Gain is 40mV/100= 0.4mV/PE (25mm) at 2100 V 5mV/100= 50 mV/PE (10mm) at 2500V 10mm somewhat faster rise time, longer trailing edge, presumably due to 4 pads connected together. The rise time does NOT depend upon the amplitude

4 Signals spectrum Fourier spectrum of a 2”x 2” MCP signal System noise
2 GHz Slope as steep as possible

5 Baseline dark noise vs HV
Conclusion: Baseline at 675 mV , no dependence with HV

6 Impulse dark noise vs HV
Conclusion: At full efficiency (25mm 2000V, 10mm 2400V), dark counts rates are: 25Hz (25mm) 20Hz (10mm)

7 Conclusions MCP PMTs show signals, baseline fluctuations and dark counts quite similar to regular Photomultiplier tubes With: Faster signals (device is thinner, consequently better timing resolution) rise-time ps rise time compared to 500ps-1ns Less noise compared to “good” PM Tubes: dark counts compared to Hz The rise time does NOT depend upon the amplitude

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