NanoTCAD ViDES
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bilayer_graphene
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Fermi
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GNRphonon
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graphene_TOB
grid1D
grid2D
grid3D
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interface1D
interface2D
interface3D
MPIze
MPIze_kt
nanoribbon
nanoribbon_fast_ohmic
nanotube
nonuniformgrid
QM1D
region
save_format_xyz
section
set_gate
solve_init
solve_Poisson
solve_schroedinger_1D
solve_self_consistent
Developing modules
Installation under Linux
Run MPI
Installation under Windows 10
Tutorials
Tutorial 01: nanotube
Tutorial 02: nanoribbon
Tutorial 03: grid
Tutorial 04: Poisson solution
Tutorial 05: self consistence
Tutorial 06: transfer characteristics
Tutorial 07: Schottky GNR-FET
Tutorial 08: full band scattering rate in GNR
Tutorial 09: On the Hamiltonian command
Tutorial 10: graphene-FET output characteristic
Tutorial 11: bilayer graphene FET
Tutorial 12: UTB within the EMA
Tutorial 13: Reading from a xyz file
Tutorial 14 – Multi-scale simulations
Tutorial 15: QM1D
Tutorial 16: Silicene Transistor
Tutorial 17: Transition Metal Dichalcogenides-based FET
Tutorial 18: Silicene Nanoribbon
Tutorial 19: Multi-scale simulation of silicon nanowire transistors
Tutorial 20: Top-of-the-barrier model for graphene
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vIDEs – Download and Installation
vIDEs – Quick start guide
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Fermi
Synopsys: Fermi(E)
This function returns the Fermi-Dirac computed at the energy E:
Fermi(E)=1/(1+exp(E))
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