Difference between revisions of "Solenoid Magnet"
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| Line 33: | Line 33: | ||
45 32971 0.990883 | 45 32971 0.990883 | ||
60 41050 1.321178 | 60 41050 1.321178 | ||
| + | 200 80715 4.403925 | ||
The longer the solenoid, the more positrons delivered to the detector. | The longer the solenoid, the more positrons delivered to the detector. | ||
Revision as of 08:56, 8 December 2014
Solenoid Test
100 million e- incident on the target. Created 97997 Positrons. Target is 2 mm thick Lead-Bismuth target, which yields most positrons. 48 mm diameter virtual detector is placed 500mm down of the target to detect e+.
20 cm long solenoid
Solenoid Inner radius=100 mm outer radius=120 mm length=200 mm. Target planced at the center of the solenoid.
I(A) e+ B(T)@Target 10 6183 0.169142 20 13675 0.338283 30 16581 0.507425 40 18576 0.676566 50 21317 0.845708 60 25011 1.014849 70 28613 1.183991 -70 28639 -1.183991 80 31643 1.353132 90 34540 1.522274 200 59433 3.382830 400 78415 6.765661 800 84885 13.531321
20 cm long solenoid
Solenoid Inner radius=100 mm outer radius=120 mm length=400 mm. Target planced at the center of solenoid.
I(A) e+ B(T)@Target 23 19359 0.506451 30 23897 0.660589 45 32971 0.990883 60 41050 1.321178 200 80715 4.403925
The longer the solenoid, the more positrons delivered to the detector.
off center placement
Solenoid Inner radius=100 mm outer radius=120 mm length=400 mm. Target placed 100 mm down of the top of the solenoid. Some positrons went backward (i.e. upstream) to the e- incident direction. I gave up this setup.
Go back: Positrons