Difference between revisions of "Aluminum Converter"
Jump to navigation
Jump to search
(Created page with '= Calculating the temperature of a 1/2 mil Aluminum converter with energy deposited from a 44 MeV electron beam. = 50 picosecond pulse width 300 Hz rep rate 50 Amp peak current ...') |
|||
| Line 1: | Line 1: | ||
= Calculating the temperature of a 1/2 mil Aluminum converter with energy deposited from a 44 MeV electron beam. = | = Calculating the temperature of a 1/2 mil Aluminum converter with energy deposited from a 44 MeV electron beam. = | ||
| − | |||
| − | |||
| − | |||
| − | |||
==Calculating number of particles per second == | ==Calculating number of particles per second == | ||
| Line 13: | Line 9: | ||
Peak current: <math> I=50 Amps </math> | Peak current: <math> I=50 Amps </math> | ||
| − | Pulse width: <math> ∆t= 50 ps = 5*10^ | + | Pulse width: <math> ∆t= 50 ps = 5*10^-11 seconds </math> |
By <math> Q=It </math>, we have <math> N*e=f*I*∆t </math> | By <math> Q=It </math>, we have <math> N*e=f*I*∆t </math> | ||
Revision as of 19:48, 7 June 2010
Calculating the temperature of a 1/2 mil Aluminum converter with energy deposited from a 44 MeV electron beam.
Calculating number of particles per second
We have electron beam of:
Frequency:
Peak current:
Pulse width:
By , we have
Where is the number of electrons that hit the target per second, is electron charge and , and are given above.
So, we have around electrons per second or electrons per pulse.
Calculating the stopping power due to collision of one 44 MeV electron in Aluminum
From NIST ([1] see link here) the stopping power for one electron with energy of 44 MeV in Aluminum is .
Assume a beam spot diameter on the converter surface of 5mm, or an area of <math> A=19.62 mm^2 <\math>.