Deposited Beam Power
This node models heat sources brought by narrow beams, such as laser or electron beams, to a given boundary. This feature is only available in 3D components.
Deposited Beam Power
Enter a value for the Deposited beam power Pl, the Beam origin point O, and the Beam orientation e. The orientation vector needs not to be normalized.
Beam Profile
Select a Distribution type: Gaussian (the default) or Top-hat disk.
For Gaussian, enter the Standard deviation σ.
For Top-hat disk, enter the Beam radius R. Smoothing can be applied by entering a positive Size of transition zone ΔR. The default value of 0 m corresponds to an ideal discontinuous top-hat profile.
Source Position
To display this section click the Show button () and select Advanced Physics Options.
Select a Source position to define a side where the heat source is defined: Layer (the default), Upside, or Downside. This setting has no effect unless the temperature differs from one side of the boundary to the other.
Upside and downside settings can be visualized by plotting the global normal vector (nx, ny, nz), that always points from downside to upside. Note that the normal vector (ht.nx, ht.ny, ht.nz) may be oriented differently.
See Tangent and Normal Variables in the COMSOL Multiphysics Reference Manual.
Location in User Interface
Context menus
Heat Transfer>Deposited Beam Power
Heat Transfer in Solids>Deposited Beam Power
Heat Transfer in Fluids>Deposited Beam Power
Heat Transfer in Porous Media>Deposited Beam Power
Bioheat Transfer>Deposited Beam Power
Heat Transfer with Surface-to-Surface Radiation>Deposited Beam Power
Heat Transfer with Radiation in Participating Media>Deposited Beam Power
Ribbon
Physics Tab with interface as Heat Transfer, Heat Transfer in Solids, Heat Transfer in Fluids, Heat Transfer in Porous Media, Heat Transfer in Building Materials, Bioheat Transfer, Heat Transfer with Surface-to-Surface Radiation or Heat Transfer with Radiation in Participating Media selected:
Boundaries>interface>Deposited Beam Power