atl_maxwell_flux Interface

public interface atl_maxwell_flux

Interface for fluxes of pure Maxwell equations.

Module Procedures

private subroutine maxwell_flux_cube(left, right, left_mu, left_epsi, right_mu, right_epsi, flux)

Subroutine to calculate the flux for pure Maxwell equations without any divergence cleaning on the reference cubic face.

Arguments

Type	Intent	Optional	Attributes		Name
real(kind=rk),	intent(in)			::	left(6)	Left state vector (as conservative variables). The order of this vector has to be \f$ (D_x, D_y, D_z, B_1, B_2, B_3) \f$ where E and B denoted electric field vetor and magnetic field (also called magnetic induction) vector.
real(kind=rk),	intent(in)			::	right(6)	Right state vector (as conservative variables). The order of this vector has to be (D_x, D_y, D_z, B_1, B_2, B_3) where E and B denoted the electric field vetor and magnetic field (also called magnetic induction) vector.
real(kind=rk),	intent(in)			::	left_mu	The magnetic permeability of the left element.
real(kind=rk),	intent(in)			::	left_epsi	The electric permitivity of the left element.
real(kind=rk),	intent(in)			::	right_mu	The magnetic permeability of the right element.
real(kind=rk),	intent(in)			::	right_epsi	The electric permitivity of the right element.
real(kind=rk),	intent(out)			::	flux(6)	The flux between left and right cell. The order of this vector is the same as the input arguments.

private subroutine maxwell_flux_cube_vec(nTotalFaces, nSides, nFaceDofs, faceRep, faceFlux, leftPos, rightPos, var, material_left, material_right)

calculate flux of pure maxwell equation directly on the

Arguments

Type	Intent	Optional	Attributes		Name
integer,	intent(in)			::	nTotalFaces
integer,	intent(in)			::	nSides
integer,	intent(in)			::	nFaceDofs
real(kind=rk),	intent(in)			::	faceRep(nTotalFaces,nFaceDofs,6,2)
real(kind=rk),	intent(inout)			::	faceFlux(nTotalFaces,nFaceDofs,6,2)
integer,	intent(in)			::	leftPos(nSides)
integer,	intent(in)			::	rightPos(nsides)
integer,	intent(in)			::	var(6)
real(kind=rk),	intent(in)			::	material_left(nSides,1,2)
real(kind=rk),	intent(in)			::	material_right(nSides,1,2)

private subroutine maxwell_flux_nonconst_cube_vec(nTotalFaces, nSides, nFaceDofs, faceRep, faceFlux, leftPos, rightPos, var, material_left, material_right, poly_proj, modalCoeffs, pntVal, nodalNumFlux, numFluxBuffer)

calculate flux of pure maxwell equation directly on the

Arguments

Type	Intent	Optional	Attributes		Name
integer,	intent(in)			::	nTotalFaces
integer,	intent(in)			::	nSides
integer,	intent(in)			::	nFaceDofs
real(kind=rk),	intent(in)			::	faceRep(nTotalFaces,nFaceDofs,6,2)	The modal representation on the faces, left and right trace.
real(kind=rk),	intent(inout)			::	faceFlux(nTotalFaces,nFaceDofs,6,2)	The fluxes for all faces, for left and right elements.
integer,	intent(in)			::	leftPos(nSides)	Positions for the left and right elements of all faces
integer,	intent(in)			::	rightPos(nsides)	Positions for the left and right elements of all faces
integer,	intent(in)			::	var(6)	Variable rotation indices
real(kind=rk),	intent(in)			::	material_left(nSides,nFaceDofs,2)	Material parameters for the left faces.
real(kind=rk),	intent(in)			::	material_right(nSides,nFaceDofs,2)	Material parameters for the right faces. Read more…
type(ply_poly_project_type)				::	poly_proj	Data for projection method
real(kind=rk),	intent(inout)			::	modalCoeffs(:,:,:)	Working array for the left and right modal coefficients
real(kind=rk),	intent(inout)			::	pntVal(:,:,:)	Working array for the left and right point values
real(kind=rk),	intent(inout)			::	nodalNumFlux(:,:)	Working array for the nodal flux
real(kind=rk),	intent(inout)			::	numFluxBuffer(:,:)	Working array for the modal numerical flux