TEMPS3E & TEMPS3P (Nu-Trek)

Purpose : Calculates the in-depth time dependent temperature resulting from e-beam or proton beam deposition. Used to:

• Predict the in-depth melting and rate of cooling during re-solidification.
• Predict the anode temperature in rep-rated machines
• Design survivable anodes

Description : TEMPS3E calculates the in-depth time dependent temperature of a slab with a time dependent electron dose deposition. A finite difference procedure is used with small time increments to calculate the re-distribution of temperature during the energy deposition period. TEMPS3P calculates proton in-depth heating. These codes assume that molten material on the surface remains in thermal contact with the slab and uses the latent heat of fusion during the phase transition. Material is removed from the slab when it starts to boil but the vapor still absorbs the incident energy.

XMAP (Nu-Trek)

Purpose : Powerful tool for calculating dose and fluence distributions from complex source geometries. Time integrated and time dependent versions are available.

Description : Code uses superposition to obtain an x-ray dose or fluence pattern from the array of point sources. This code assumes that the dose or fluence production from each point is identical in shape but only varies in magnitude. Hence the spatial distribution of the source points and the source intensity of each point source must be given.

ITS, Integrated Tiger Series (Sandia)

Purpose : Powerful code for electron and photon transport.

Description : Generalized Monte Carlo code for electron and photon transport. The code contains 9 sub-codes from ID, 2D, 3D some of which include electric & magnetic fields.

FlexPDE (Russian)

Purpose : Thermal transport and any other phenomena that can be modeled as partial differential equations.