Faraday Cup Temperature
Calculating the temperature of a Faraday Cup Rod
Number of particles per second and corresponding beam power
Assume electron beam parameters at FC location are:
Frequency: f=300 Hz Peak current: I=3 Amps Pulse width: t= 50 ps Beam energy: E=45 MeV
The number of electrons per second at FC location are:
The corresponding beam power for 45 MeV electron beam is:
Temperature calculation
Now apply the Stefan-Boltzmann Law for one Faraday cup rod
Here,
A is the radiated area of one rode. Assume it's 2 cm^2
is the Stefan-Boltzmann constant.
Solving for Temperature and taking into account the two sides of the converter we get:
where
is the Stefan-Boltzmann constant, . Assume a beam spot diameter on the converter surface of 5mm, or an area of .Plugging in the numbers we see that the temperature will increase
. Now, adding in the temperature of the converter at room temperature we get :
The melting temperature of Aluminum is
.Conclusion
An Aluminum converter that is 1/2 mil thick being struck by a 44 MeV electron beam with a 50 picosecond pulse width, 300 Hz rep rate, and 50 Amp peak current is found to be safe from melting.