Difference between revisions of "Radiators Temperature"
Jump to navigation
Jump to search
| Line 3: | Line 3: | ||
==1.Calculating number of particles per second == | ==1.Calculating number of particles per second == | ||
| − | We have electron beam of: | + | -We have electron beam of: |
| − | Frequency: f=1000Hz | + | -Frequency: f=1000Hz |
Peak current: I=10mAmp=0.01 Amp | Peak current: I=10mAmp=0.01 Amp | ||
Pulse width: ∆t= 50 ns=5*10-8 seconds | Pulse width: ∆t= 50 ns=5*10-8 seconds | ||
Revision as of 14:30, 29 May 2008
Calculation of Equilibrium temperature of Radiators
1.Calculating number of particles per second
-We have electron beam of: -Frequency: f=1000Hz Peak current: I=10mAmp=0.01 Amp Pulse width: ∆t= 50 ns=5*10-8 seconds So how many electrons we have in each second? By Q=It, we have N*e=f*I*∆t Where Ne is the total electron numbers hits target per second, e is electron charge and f, I and ∆t are given above. So N= f*I*∆t/e=1000*0.01*5*10-8/(1.6*10-19)=3.12075*1012 So, we have around 3.12075*1012 electrons hit radiator per second.