2.5.2. Exercises¶
This set of tutorials focus on demonstrating applications of nextnano++ on simple but realistic examples.
- Band gap of strained AlGaInP on GaAs substrate
- I-V Curves
- 1D - Cascade solar cell (Tandem solar cell)
- 1D - Transmission (CBR)
- 1D - GaAs Solar Cell
- HEMT structure (High Electron Mobility Transistor)
- 1D - Intersubband absorption of an infinite quantum well
- k.p dispersion in bulk GaAs (strained / unstrained)
- 1D - Optical interband transitions in a quantum well - Matrix elements and selection rules
- 1D - Optical intraband transitions in a quantum well - Intraband matrix elements and selection rules
- 1D - Optical absorption for interband and intersubband transitions
- 1D - pn Junction
- Solution of the Poisson equation for different charge density profiles
- Schottky barrier
- 1D - Simple quantum cascade structure
- 1D - InAs / In0.4Ga0.6Sb superlattice dispersion with 8-band k.p (type-II band alignment)
- A) Schrödinger equation of a two-dimensional core-shell structure and B) Hexagonal 2DEG - Two-dimensional electron gas in a delta-doped hexagonal shaped GaAs/AlGaAs nanowire heterostructure
- 2D - Electron Flying Qubit
- 2D - Fock-Darwin states of a parabolic, anisotropic (elliptical) potential in a magnetic field
- 2D - Fock-Darwin states of parabolic, isotropic potential in a magnetic field
- 2D - Landau levels of a bulk GaAs sample in a magnetic field
- 2D - MOS Capacitor & MOSFET
- 2D - Interband absorption spectrum of a GaAs cylindrical quantum wire
- 2D - Intersubband absorption spectrum of a GaAs cylindrical quantum wire
- 2D - Electron wave functions in a cylindrical well (2D Quantum Corral)
- 2D - Electron wave functions of a 2D slice of a Triple Gate MOSFET
- 3D - Depletion of electrons in a two-dimensional electron gas (2DEG)
- 3D - Transmission through a nanowire (CBR)
- 3D - Conductance of a quantum point contact (gated two-dimensional electron gas)
- 3D - Absorption spectrum of a GaAs spherical quantum dot
- Energy levels in idealistic 3D cubic and cuboidal shaped quantum dots
- Single-electron transistor - laterally defined quantum dot
- Hole energy levels of an “artificial atom” - Spherical Si Quantum Dot (6-band k.p)