yeeAmpereUpdater

yeeAmpereUpdater

Works with VSimBase, VSimEM, VSimPD, VSimPA, and VSimVE licenses.

MultiField updater that updates an electric field, defined on grid edges, according to the standard second-order Yee leapfrog algorithm, using a magnetic field (on faces), and optionally a current field. This current field can be a 3-vector or the last three components of a 4-vector.

yeeAmpereUpdater Parameters

The yeeAmpereUpdater takes the lowerBounds and upperBounds parameters of FieldUpdater, as well as the global region modification parameters and local region modification parameters. In addition, yeeAmpereUpdater takes the following parameters:

readFields (required string vector)

A vector of either one or two strings. The first string is the name of magnetic field, and if provided, the second is the name of the current field to add to the result (multiplied by the specified factors).

writeFields (required string vector)

A vector contining a single element, the name of the electric field to update.

useVecUpdater (optional integer, default = false)

If true, the updater will update all three components of the electric field, beginning with the specified component. The updated field must therefore have at least \({\tt component} + 3\) components.

component (optional integer, default = 0)

The field component to update, or if useVecUpdater is true, the first field component to update.

readFieldCompShifts (optional integer vector, default = [0 1])

This vector must have the same number of elements as readFields. It specifies the amount by which to increment the component indices of the first field and the (optional) second field. For example, if a magnetic field is represented by components 3–5 of the field EandB, then to calculate the curl of that magnetic field, one would specify readFields = [EandB] and readFieldCompShifts = [3]. If the second (current) field is not a 4-vector, then it is proper to set readFieldCompShifts = [0 0].

gridBoundary (optional string)

If provided, only components on the interior of the specified GridBoundary will be updated. The method to define the interior is given in the interiorness parameters.

interiorness (optional string, default = cellcenter)

If the gridBoundary parameter is specified, this is the method the used to determine whether a component is interior to the boundary. The behavior depends on the offset specified in the updated Field. One of:

  • cellcenter:

    If offset = none, or offset = edge4v and component = 0, then a cell is considered interior if its node is adjacent to at least one cell with center inside the boundary.

    If offset = edge, or offset = edge4v and component is not 0, then a cell is considered interior if the edge specified by component is adjacent to at least one cell with center inside the boundary.

    If offset = face, then a cell is considered interior if the face specified by component is adjacent to at least one cell with center inside the boundary.

    If offset = center, then a cell is considered interior if its center is inside the boundary.

  • deymittra

    If offset = none, or offset = edge4v and component = 0, then a cell is considered interior if all nodes adjacent to (i.e. displaced by a single edge from) its node are inside the boundary.

    If offset = edge, or offset = edge4v and component is not 0, then a cell is considered interior if the edge specified by component has at least one adjacent node inside the boundary, and that edge is not ignored by the Dey-Mittra algorithm given the dmFrac parameter specified in the gridBoundary.

    If offset = face, then a cell is considered interior if all nodes adjacent to the face specified by component are inside the boundary.

    This interiorness option cannot be specified with offset = center.

  • .dmnodal

    This interiorness option is identical to deymittra.

lowerSkinDepth (optional integer vector)

Specifies the number of skin cells, in each direction, on the lower end of the local domain. The cells in the skin are updated before the fields specified as messageFields in the UpdateStep or InitialUpdateStep block are messaged. If not specified, the skin depth will be determined automatically.

upperSkinDepth (optional integer vector)

Specifies the number of skin cells, in each direction, on the upper end of the local domain. If not specified, the skin depth will be determined automatically.

Example yeeAmpereUpdater Block

<FieldUpdater yeeAmpere>
  kind = yeeAmpereUpdater
  lowerBounds = [NX_BEGIN NY_BEGIN NZ_BEGIN]
  upperBounds = [NX_END NY_END NZ_END]
  readFields = [yeeB]
  writeFields = [yeeE]
  useVecUpdater = true
</FieldUpdater>