Electro Static face (3D) / line (2D) region

Introduction

The face (in 3D) / line (in 2D) regions are:

either material regions: used to model thin regions in the study domain
or non-material regions: used to impose boundary conditions (BC) inside or on the frontiers of the study domain

Thin regions enable the modeling of small thickness regions (cracks, air-gap, etc.).

The thin regions are described in the same way as the massive regions, with in addition the thickness of the regions.

In 3D, the direction of the E and D fields is selected by the user, as indicated in the table below.

Thin region	Direction of fields E and D
dielectric (+ electric charge sources q)	thin region with random ε permittivity	thin region with: ε₂ >> ε₁

Thin region

Direction of fields E and D

no restriction

quasi tangential

dielectric (+ electric charge sources q)

thin region with random ε permittivity

thin region with: ε₂ >> ε₁

Non-material regions enable to impose the boundaries conditions (BC).

A region…	is a BC that enables one to impose…	It is defined by…
Perfect conductor	an uniform electric potential and a normal electric field	an electric potential: floating or fixed value (in V)
Imposed surface charge	a surface density of electric charge	a surface density of electric charge (in C/m²) (formula with input/output parameters or formula with spatial quantities)
Imposed electric potential	an electric potential	an electric potential (in V) (formula with input/output parameters or formula with spatial quantities)
Normal electric field	a normal electric field	an electric potential: floating or fixed value (in V)
Tangential electric field	a tangential electric field
… on the faces/lines that form the region