PMT SPE Chiba (new parameters for next version of ROMEO) (new parameters for next version of ROMEO) Yusuke Hasegawa et al., presented by.

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Presentation transcript:

PMT SPE Chiba (new parameters for next version of ROMEO) (new parameters for next version of ROMEO) Yusuke Hasegawa et al., presented by Hiroko Miyamoto & Kotoyo Hoshina Dept. of Physics, CHIBA University and UW Madison

SPE response for ROMEO Make Model of Charge Response function for the PMT simulation (ROMEO). Fitting Function? Fitting parameters? Examine SPE waveform. Tube to Tube Variance of Pulse Width

Electronics of Charge Response 70nse c CAMAC Crate Controller Crate Controller ADC GP-IB Function Generator Function Generator NIM PCI Card CAMAC Interface CAMAC Interface GP-IB Interface GP-IB Interface Gate Generator Gate Generator LinuxPC Sync. PMT Freezer(-32 ℃ ) Gate Signal Discriminator TTL-NIM Converter TTL-NIM Converter 2kHz, ~ 0.01 photoelectron/shot 4 ~ 6nse c 375 nm UV LED diffus er ~ 100ns

PMT Setting in the Freezer Base circuit Diffuser attached to UV LED

The parameterization of PMT SPE charge response  Fitted the spe charge response with 1 exponential + 1 gaussian terms.  The exponential term comes from a incomplete multiplication at a dynode.  Integration from qped to infinity is 1(normalized) 2 ()

Charge different 8 TA1052 (GPMT)

The obtained parameters  total 118 PMTs (FY 2004 ~ 2006)  Many PMTs failed to fit at low gain Summarized by Y. Hasegawa sq0/q0qtau/q0 p_ex /research/IceCube/pmt/SPE/CRAnalysis.html TA2086 (current ROMEO)

The averaged charge response for each gain gain=5x10 7 gain=12x10 7 gain=8x10 7 PMT to PMT difference is larger than the gain dependence! qtau/q0 p_ex sq0/q0 qt/q0:0.42, sq0/q0:0.27 p_ex:0.36 qt/q0:0.50, sq0/q0:0.30 p_ex:0.29 qt/q0:0.51, sq0/q0:0.29 p_ex:0.32

The all averaged charge response All averaged charge response (gain >5x10 7 ) Current ROMEO (TA2086)  Averaged charge response is now close to J.Kelley’s measurement  ~ 10% of P.E. are below threshold (0.2 p.e.) p.e. sq0/q0qtau/q0p_exIntegral <0.2p.e. averaged % ROMEO % Arbitrary unit

Electronics of Waveform Taking 75nsec GP-IB Oscilloscope CH2 CH1 Oscilloscope CH2 CH1 GP-IB Function Generator Function Generator NIM Divider Discriminator Gate Generator Gate Generator Coincidence PCI Board GP-IB Interface GP-IB Interface Gate Generator Gate Generator LinuxPC TTL-NIM Converter TTL-NIM Converter Sync. PMT Freezer(-32 ℃ ) Trigger Signal Discriminator Level : 10 5x10 7 Gain ( ~ 0.4 p.e.) 2kHz, ~ 0.01 photoelectron/shot diffus er 375 nm UV LED 1,000 samples/measurement

SPE Waveform pulse Gaussian Fit [ns] [mV]

SPE Waveform width FY2004 ~ FY

SPE Waveform width FY2004 ~ FY2007 total Average: Current Romeo:

Current Romeo: SPE Waveform width FY2004 ~ FY2007

Summary Averaged charge response and waveform width over 100 PMTs are calculated, ready to be implemented into the new version of ROMEO. Averaged charge response is now close to J.Kelley’s DOM measurement. ~10% of P.E. are below threshold (0.2 p.e.) Waveform width shows some significant change at around the end of FY > Study will be continued..

END

Module NameModelCompanyNotes Function Generator33120AAgilent Technology OscilloscopeTDS2012Tektronix2ch, digital strage ADC (Analog to Digital Converter) 2249ALeCroy0.25pC/bin, full scale, 256pC(1024ch) Crate controllerCC/7700Toyo technica Dual gate generatorKN1500Kaizu Works 8ch DiscriminatorN-TM405Technoland 4-hold 1- veto coincidence 470Kaizu Works Quad High VoltageRPH-22Repic 16ch TTL-NIM Level Adopter KN206Kaizu Works Preset scaler controller150Kaizu Works Dual variable delay330Kaizu Works Nichia UV LEDNSHU550ANichia375nm, 220Ω driving Measurement Setup - Module