Difference between revisions of "03-30-2015"
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Al radiator in | Al radiator in | ||
Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 10 mV (all), LED pulse width = 40 ns (all) | Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 10 mV (all), LED pulse width = 40 ns (all) | ||
+ | Target = DU rod | ||
{| border="1" | {| border="1" | ||
− | | Run # || | + | | Run # ||LED (mv) || colspan="4"| Gammas/pulse || colspan="4"| Neutrons/Pulse |
|- | |- | ||
|colspan="2" | || 1 top [8] || 2 top [0] || 3 top [10]|| 4 top [10] ||1 top [8] || 2 top [0] || 3 top [10]|| 4 top [10] | |colspan="2" | || 1 top [8] || 2 top [0] || 3 top [10]|| 4 top [10] ||1 top [8] || 2 top [0] || 3 top [10]|| 4 top [10] | ||
|- | |- | ||
− | |4504 || | + | |4504 || 10 || 1/13|| || 1/10|| || 1/391 || ||1/378 |
|- | |- | ||
− | |4505 || | + | |4505 || 20 || 1/18|| || 1/14|| || 1/1158 || ||1/922 |
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− | |||
− | |||
− | |||
|- | |- | ||
− | |4506 || | + | |4506 || 5 mV || 1/13|| || 1/9|| || 1/259 || ||1/245 |
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|4507 || Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run. | |4507 || Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run. |
Revision as of 19:04, 30 March 2015
Run # (multihit data) | Description |
4504 | Al radiator in, DU cyl. target in, Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 10 mV (all), LED pulse width = 40 ns (all)
N(gamma/pulse, TDC[1][8]) = 1/13, N(n/pulse, TDC[1][8]) = 1/391 = 0.00255 N(gamma/pulse, TDC[1][10]) = 1/10, N(n/pulse, TDC[1][10]) = 1/378 = 0.00266 |
4505 | Al radiator in, DU cyl. target in, Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 20 mV (all), LED pulse width = 40 ns (all)
N(gamma/pulse, TDC[1][8]) = 1/18, N(n/pulse, TDC[1][8]) = 1/1158 = 0.00086 N(gamma/pulse, TDC[1][10]) = 1/14, N(n/pulse, TDC[1][10]) = 1/922 = 0.0011 |
4506 | Al radiator in, DU cyl. target in, Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 5 mV (all), LED pulse width = 40 ns (all)
N(gamma/pulse, TDC[1][8]) = 1/13, N(n/pulse, TDC[1][8]) = 1/259 = 0.0039 N(gamma/pulse, TDC[1][10]) = 1/9, N(n/pulse, TDC[1][10]) = 1/245 = 0.0041 |
4507 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = 120 e+/min N(gamma/pulse, TDC[1][8], Det #1 top) = 1/15, N(n/pulse, TDC[1][8], Det #1 top) = 0.0023 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/11 N(n/pulse, TDC[1][3], Det #4 bottom) = 0.0037 N(n/pulse, TDC[1][9], Det #1 bottom) = 0.0021 N(n/pulse, TDC[1][0], Det #2 top) = 0.0021 N(n/pulse, TDC[1][10], Det #3 top) = 0.0022 N(n/pulse, TDC[1][4], Det #5 upstream) = 0.0005 N(n/pulse, TDC[1][14], Det #6 upstream) = 0.0012 |
4508 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = 125, 133, 147, 119, 110, 125 e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = 1/4, N(n/pulse, TDC[1][0], Det #2 top) = 0.0025 N(gamma/pulse, TDC[1][1], Det #2 bottom) = 1/4, N(n/pulse, TDC[1][1], Det #2 bottom) = 0.0015 N(gamma/pulse, TDC[1][8], Det #1 top) = 1/15, N(n/pulse, TDC[1][8], Det #1 top) = 0.0023 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/11 N(n/pulse, TDC[1][3], Det #4 bottom) = 0.0043, N(n/pulse, TDC[1][2], Det #4 top) = 0.004 N(n/pulse, TDC[1][9], Det #1 bottom) = 0.0024 N(n/pulse, TDC[1][0], Det #2 top) = 0.0024 N(n/pulse, TDC[1][10], Det #3 top) = 0.0024 N(n/pulse, TDC[1][4], Det #5 upstream) = 0.0005 N(n/pulse, TDC[1][14], Det #6 upstream) = 0.0013 |
4509 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = 1/3.8, N(n/pulse, TDC[1][0], Det #2 top) = 0.0022 N(gamma/pulse, TDC[1][1], Det #2 bottom) = 1/4.2, N(n/pulse, TDC[1][1], Det #2 bottom) = 0.0014 N(gamma/pulse, TDC[1][8], Det #1 top) = 1/14.7, N(n/pulse, TDC[1][8], Det #1 top) = 0.0022 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/10.4 N(n/pulse, TDC[1][3], Det #4 bottom) = , N(n/pulse, TDC[1][2], Det #4 top) = N(n/pulse, TDC[1][9], Det #1 bottom) = N(n/pulse, TDC[1][0], Det #2 top) = N(n/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][4], Det #5 upstream) = N(n/pulse, TDC[1][14], Det #6 upstream) = |
4510 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = , N(n/pulse, TDC[1][0], Det #2 top) = N(gamma/pulse, TDC[1][1], Det #2 bottom) = , N(n/pulse, TDC[1][1], Det #2 bottom) = N(gamma/pulse, TDC[1][8], Det #1 top) = , N(n/pulse, TDC[1][8], Det #1 top) = N(gamma/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][3], Det #4 bottom) = , N(n/pulse, TDC[1][2], Det #4 top) = N(n/pulse, TDC[1][9], Det #1 bottom) = N(n/pulse, TDC[1][0], Det #2 top) = N(n/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][4], Det #5 upstream) = N(n/pulse, TDC[1][14], Det #6 upstream) = |
Better table
Al radiator in
Current = 800 mA width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. LED = 10 mV (all), LED pulse width = 40 ns (all) Target = DU rod
Run # | LED (mv) | Gammas/pulse | Neutrons/Pulse | ||||||
1 top [8] | 2 top [0] | 3 top [10] | 4 top [10] | 1 top [8] | 2 top [0] | 3 top [10] | 4 top [10] | ||
4504 | 10 | 1/13 | 1/10 | 1/391 | 1/378 | ||||
4505 | 20 | 1/18 | 1/14 | 1/1158 | 1/922 | ||||
4506 | 5 mV | 1/13 | 1/9 | 1/259 | 1/245 | ||||
4507 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = 120 e+/min N(gamma/pulse, TDC[1][8], Det #1 top) = 1/15, N(n/pulse, TDC[1][8], Det #1 top) = 0.0023 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/11 N(n/pulse, TDC[1][3], Det #4 bottom) = 0.0037 N(n/pulse, TDC[1][9], Det #1 bottom) = 0.0021 N(n/pulse, TDC[1][0], Det #2 top) = 0.0021 N(n/pulse, TDC[1][10], Det #3 top) = 0.0022 N(n/pulse, TDC[1][4], Det #5 upstream) = 0.0005 N(n/pulse, TDC[1][14], Det #6 upstream) = 0.0012 | ||||||||
4508 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = 125, 133, 147, 119, 110, 125 e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = 1/4, N(n/pulse, TDC[1][0], Det #2 top) = 0.0025 N(gamma/pulse, TDC[1][1], Det #2 bottom) = 1/4, N(n/pulse, TDC[1][1], Det #2 bottom) = 0.0015 N(gamma/pulse, TDC[1][8], Det #1 top) = 1/15, N(n/pulse, TDC[1][8], Det #1 top) = 0.0023 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/11 N(n/pulse, TDC[1][3], Det #4 bottom) = 0.0043, N(n/pulse, TDC[1][2], Det #4 top) = 0.004 N(n/pulse, TDC[1][9], Det #1 bottom) = 0.0024 N(n/pulse, TDC[1][0], Det #2 top) = 0.0024 N(n/pulse, TDC[1][10], Det #3 top) = 0.0024 N(n/pulse, TDC[1][4], Det #5 upstream) = 0.0005 N(n/pulse, TDC[1][14], Det #6 upstream) = 0.0013 | ||||||||
4509 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = 1/3.8, N(n/pulse, TDC[1][0], Det #2 top) = 0.0022 N(gamma/pulse, TDC[1][1], Det #2 bottom) = 1/4.2, N(n/pulse, TDC[1][1], Det #2 bottom) = 0.0014 N(gamma/pulse, TDC[1][8], Det #1 top) = 1/14.7, N(n/pulse, TDC[1][8], Det #1 top) = 0.0022 N(gamma/pulse, TDC[1][10], Det #3 top) = 1/10.4 N(n/pulse, TDC[1][3], Det #4 bottom) = , N(n/pulse, TDC[1][2], Det #4 top) = N(n/pulse, TDC[1][9], Det #1 bottom) = N(n/pulse, TDC[1][0], Det #2 top) = N(n/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][4], Det #5 upstream) = N(n/pulse, TDC[1][14], Det #6 upstream) = | ||||||||
4510 | Al radiator in, DU cyl. target in, Current = 800 mA, LINAC pulse width = 100 ps, Ee = 10.5 MeV, rep. rate = 200Hz, slits are at 351. Back to LED threshold = 10 mV (all), LED pulse width = 40 ns (all). LED is in updating mode. Pair spectrometer Det @ 15 mV threshold. Production run.
Positron rate by visual scaler = e+/min N(gamma/pulse, TDC[1][0], Det #2 top) = , N(n/pulse, TDC[1][0], Det #2 top) = N(gamma/pulse, TDC[1][1], Det #2 bottom) = , N(n/pulse, TDC[1][1], Det #2 bottom) = N(gamma/pulse, TDC[1][8], Det #1 top) = , N(n/pulse, TDC[1][8], Det #1 top) = N(gamma/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][3], Det #4 bottom) = , N(n/pulse, TDC[1][2], Det #4 top) = N(n/pulse, TDC[1][9], Det #1 bottom) = N(n/pulse, TDC[1][0], Det #2 top) = N(n/pulse, TDC[1][10], Det #3 top) = N(n/pulse, TDC[1][4], Det #5 upstream) = N(n/pulse, TDC[1][14], Det #6 upstream) = |