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Published byDonna Kelly Modified over 9 years ago
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Hamamatsu R7525 HA: outer conductive coating with insulating sleeve CC: convex-concave window 0.5-0.6 mm thick (standard plano-concave: 1mm center, 6.1 mm edge) μ: soft mu-metal shield wrap 2700 units 3 month lead time ARO 200 units/month delivery rate EachTotal R7525 HA$246.41665 k$ R7525 HA-μ$265.55717 k$ R7525 CC-HA$360.29973 k$ R7525 CC-HA-μ$ 377.641020 k$
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Neutrons on Glass PMT window materials (silica and borosilicate) were studied in a reactor and compared with other data 6 x 1012 n/cm2 4.1 x 1013 n/cm2(Hamamatsu points at 14 MeV, red) 2.5 x 1014 n/cm2(Hamamatsu points at 14 MeV, blue) 6 x 1014 n/cm2 –Expected total neutron fluence at the PMTs is 2.5 x 1012 n/cm2 in 10 years (E>100 keV 1.6x1012, E>20 MeV 5.1x1011) –Expect transmission loss of a few percent over ten years; – not a problem.
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Is Boron in Window a problem? B 10 5 + n 1 0 -> Li 7 3 + 4 2 +2.792 MeV (gnd state) 6% B 10 5 + n 1 0 -> *Li 7 3 + 4 2 +2.310 MeV (ex state) 94% E = 1.47 MeVE Li = 0.84 MeV The natural abundance of B 10 5 is 19.8 % Alpha particle ranges out in ~450 m *Li gives out 0.43 MeV gamma with ~ 10 -13 sec For thermal neutrons (< 0.025 eV), ~ 3840 b At PMT location, n ~ 10 kHz/cm 2 d /dt = n A D N ~ 1000 /sec, E = 1.47 MeV T max ~ 2 m e c 2 2 2 ~ 0.8 keV R ~ 0.7 T 1.7 ~ 88 nm Cook all of these numbers with simulation and get –Alphas produced in glass =1000 /sec –Alphas entering photocathode=226 /sec –Electrons entering PMT/ =18 –Electrons with E<100 eV / =12 Conclusion is that there will be ~0.02 alphas per event per HF side with a mean energy of 12 GeV. This is not a problem and verified with MC.
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Radiation Backgrounds around PMTs This problem has been recently revisited and the present shielding system looks OK (20 cm steel, 18 cm polyethylene, 2 cm aluminum). The holes (~2.5 cm dia.) for the light guides are included in the these calculations. The charged hadrons and neutrons are ~100 Hz/cm 2. The photon rate is higher at 10000 and we are trying to do something about that. The PMT window is a potential source for Cherenkov radiation from charged particles. –2x10 10 ch/cm 2 for 10 years give ~10 -5 PMTs/xing. If 20 pe/PMT (1-3 mm thick window), 2x10 -4 pe/(xing PMT) –If an isolated particle hits a PMT window, it would represent ~80 GeV.
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Other Issues Scintillation of the PMT window is only a concern if the dose rate is >0.03 rad/sec. For HF, the estimate is 0.00002 rad/sec (factor of 1000 less). Ambient He partial pressure in air (0.53 Pa) will not be a problem with borosilicate window. Partial pressure will change 10 times in 10 years but will remain below the danger level by a factor of ~50000. Nitrogen gas will be circulated inside the ROBox against He leak from cryogenics and temperature fluctuations (+/- 2 degrees should not be a problem).
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Hammamatsu ItemSpecificationsR7525 Anode current vs. cathode position +- 20%, 3mm spot+- 30%, 3mm spot Gain10 5 at 75% V KA (max10 5 at 80% V KA Single pe resolution50% or better65% or better Stability+-3% within any 48 hourOK after 10 hr. warmup EnvelopeOpaque and conductiveGraphite +PVC WindowPlaner or convexConvex cost + 50% Samples are on hand
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Photonis ItemSpecificationXP2960XP3182 Pc diameter22-28 mm23 mm21 mm Gain10 4 -10 5 2x10 4 -2x10 6 10 5 -10 6 Transit time<25ns preferred 19 ns33 ns Pe resolution50% or better70% Convex-concave window is not available. Samples are being sent.
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Electron Tube Two candidates, D843WSB and D844WSB, meet all preliminary specifications, with no exceptions noted. Final data sheets not yet in hand. Both tubes come with 1 mm convex-concave windows of uv-transmitting glass. 843 longer with better linearity range and lower after each pulse. 844 shorter with better rise time and transit time. Samples are being sent
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Lifetime - I Aging is suspected to be dependent on the total accumulated charge. Charge rate is not relevant at 10 micro amps average anode current. 3600 C (~40%) 360 C (~10%) 180 C SAFE I ave = 0.1 mA
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Lifetime - II 260 C (~15 %) 26 C These estimates are based on 0.25 pe/GeV and gain of 4x10 4 for ten calendar years. There does not seem to be a drastic problem with PMT aging based on what we know now. The gain loss is recoverable by voltage increase.
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Magnetic Field The external magnetic field around the ROBox region is small (<0.0023 T). Therefore it is not difficult to magnetically shield the PMTs to satisfactory levels. Shielding factor = 3 t/4r ~3000 for the mu-shield and there is another factor of 4 from the soft iron tube around the PMTs which results in the effective suppression factor of 12000.
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