User Tools
qcl:simulation_of_resonant_tunneling_diodes_rtds
Differences
This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision | ||
|
qcl:simulation_of_resonant_tunneling_diodes_rtds [2020/06/19 14:21] thomas.grange |
qcl:simulation_of_resonant_tunneling_diodes_rtds [2022/03/30 17:13] (current) thomas.grange |
||
|---|---|---|---|
| Line 2: | Line 2: | ||
| <color red> | <color red> | ||
| - | Note that in the current version (2020-06-18), only single band calculations are supported for such open boundary conditions. | + | Note that in the current version (2022-03-30), only single band calculations are supported for open boundary conditions. A multiband version is currently developed. |
| </color> | </color> | ||
| Line 28: | Line 28: | ||
| A broadening energy can be defined by the command ''<Broadening>''. Indeed, scattering is not accounted in the contact, so that this commands allows a phenomenological broadening of the density of states in the contact. | A broadening energy can be defined by the command ''<Broadening>''. Indeed, scattering is not accounted in the contact, so that this commands allows a phenomenological broadening of the density of states in the contact. | ||
| - | The command ''<Ballistic>'' can be used to calculate ballistic transport between the contacts (i.e. no scattering process considered if its value is set to ''yes''. | + | The command ''<Ballistic>'' can be used to calculate ballistic transport between the contacts (i.e. no scattering process considered) if its value is set to ''yes''. |
| + | |||
| + | **The tutorial for AlGaAs/GaAs intraband RTD is available on our new manual from** [[https://www.nextnano.com/manual/nextnano.NEGF_tutorials/algaas_gaas_rtd.html|here]]. | ||
qcl/simulation_of_resonant_tunneling_diodes_rtds.1592576512.txt.gz · Last modified: 2020/06/19 14:21 by thomas.grange
