Hello Mohamed Youssef
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Posted:
1 decade ago
2011年6月30日 GMT-4 17:00
The density of the energy distribution can be modeled by a Gaussian, if that is what you need.
You can use Q = const*z*exp(-(z+z0-c*t)^2/sigz^2)*exp(-r^2/sigr^2)
Where the constant = 2*c*(energy deposited by single bunch)/(pi*sqrt(pi0*sigz*sigr^2*target thickness)
For energy distributed through entire depth of target
The density of the energy distribution can be modeled by a Gaussian, if that is what you need.
You can use Q = const*z*exp(-(z+z0-c*t)^2/sigz^2)*exp(-r^2/sigr^2)
Where the constant = 2*c*(energy deposited by single bunch)/(pi*sqrt(pi0*sigz*sigr^2*target thickness)
For energy distributed through entire depth of target
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Posted:
1 decade ago
2011年7月12日 GMT-4 04:17
Pulse duration: 10 ns
Intensity: 10 W/cm^2
For the given parameters and 2-D cylindrical geometry, how can I write a heat source equation?
P.s: For now, I have just used (I0*a), where I0 is intensity and a is the absorption coefficient of the related domain. I am looking for temporal and spatial parts of this source term: I0*a*(temporal term)*(spatial term).
Thanks
Pulse duration: 10 ns
Intensity: 10 W/cm^2
For the given parameters and 2-D cylindrical geometry, how can I write a heat source equation?
P.s: For now, I have just used (I0*a), where I0 is intensity and a is the absorption coefficient of the related domain. I am looking for temporal and spatial parts of this source term: I0*a*(temporal term)*(spatial term).
Thanks
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Posted:
1 decade ago
2011年7月13日 GMT-4 11:27
What are your geometry parameters?
What are your geometry parameters?
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Posted:
1 decade ago
2011年7月13日 GMT-4 12:56
I have used a rectangle with a small plane at the left in it?
I have used a rectangle with a small plane at the left in it?
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Posted:
1 decade ago
2011年7月13日 GMT-4 13:54
The Gaussian I gave you will have units of W/m^3 so that is not applicable in this case.What exactly do you want the pulse to do?
The Gaussian I gave you will have units of W/m^3 so that is not applicable in this case.What exactly do you want the pulse to do?