The Electrostatics (es) interface (
), found under the
AC/DC>Electric Fields and Currents branch when adding a physics interface, is used to compute the electric field, electric displacement field, and potential distributions in dielectrics under conditions where the electric charge distribution is explicitly prescribed. The formulation is stationary except for when it is used together with other physics interfaces. Eigenfrequency, frequency-domain, small-signal analysis, and time-domain modeling are supported in all space dimensions.
When this physics interface is added, these default nodes are also added to the Model Builder —
Charge Conservation,
Zero Charge (the default boundary condition), and
Initial Values. Then, from the
Physics toolbar, add other nodes that implement, for example, boundary conditions and space charges. You can also right-click
Electrostatics to select physics features from the context menu.
The physics-controlled mesh is controlled from the Mesh node’s
Settings window (if the
Sequence type is
Physics-controlled mesh). There, in the table in the
Physics-Controlled Mesh section, find the physics interface in the
Contributor column and select or clear the check box in the
Use column on the same table row for enabling (the default) or disabling contributions from the physics interface to the physics-controlled mesh.
The Label is the default physics interface name.
The Name is used primarily as a scope prefix for variables defined by the physics interface. Refer to such physics interface variables in expressions using the pattern
<name>.<variable_name>. In order to distinguish between variables belonging to different physics interfaces, the
name string must be unique. Only letters, numbers, and underscores (_) are permitted in the
Name field. The first character must be a letter.
The default Name (for the first physics interface in the model) is
es.
For 1D components, enter a default value for the Cross-section area A (SI unit: m
2). The default value of 1 is typically not representative for a thin domain. Instead it describes a unit thickness that makes the 1D equation identical to the equation used for 3D components. See also
Change Cross Section.
For 2D components, enter a default value for the Out-of-plane thickness d (SI unit: m). The default value of
1 is typically not representative for a thin dielectric medium, for example. Instead it describes a unit thickness that makes the 2D equation identical to the equation used for 3D components. See also
Change Thickness (Out-of-Plane).
The dependent variable is the Electric potential V. You can change its name, which changes both the field name and the variable name. If the new name coincides with the name of another electric potential field in the model, the physics interfaces shares degrees of freedom. The new name must not coincide with the name of a field of another type or with a component name belonging to some other field.
Select the shape order for the Electric potential dependent variable —
Linear,
Quadratic (the default),
Cubic,
Quartic, or
Quintic. For more information about the
Discretization section, see
Settings for the Discretization Sections in the
COMSOL Multiphysics Reference Manual.