The Continuous Energy Level subnode is available from the context menu (right-click the
Trap-Assisted Recombination parent node) or from the
Physics toolbar,
Attributes menu when
Explicit trap distribution is selected as the
Domain trapping model, and
Specify continuous and/or discrete levels is selected under
Trapping. Use this node to define a density of trap states.
This section is available when the Specify trap species check box is selected for the parent node. See
Discrete Energy Level (Domains).
Select a Trap density distribution —
Gaussian (the default),
Rectangle,
Exponential, or
User defined. Then enter the applicable information:
When the Trap type is defined, enter one of the following:
where g (E) is the density of trap states, and
Et,min and
Et,max define the range of the energy (see user inputs below), with the default being the energy levels corresponding to the conduction and valence band edges in the absence of band gap narrowing. The energy range is truncated within the default range so that there is no trap level within the conduction band or the valence band.
Select a Distribution centerpoint —
Midgap (the default),
From valence band edge,
From conduction band edge, or
Relative. Then enter the applicable information:
Enter the Ground-state degeneracy factor gd (dimensionless). The default is 1.
Enter the Trap occupancy initial value ft,init (dimensionless). The default is 0.5.
Enter the Continuous energy discretization, number of mesh points Nxdelem (dimensionless). The default is 25.
Enter the Continuous energy discretization, min energy Et,min (SI unit: V). The default is
semi.Ev0, the valence band edge in the absence of band gap narrowing.
Enter the Continuous energy discretization, max energy Et,max (SI unit: V). The default is
semi.Ec0, the conduction band edge in the absence of band gap narrowing.