Quantum mechanics of electrons in crystals with graded composition
- 17 May 1993
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 70 (20) , 3103-3106
- https://doi.org/10.1103/physrevlett.70.3103
Abstract
We construct the effective Hamiltonian describing the motion of electrons in compositionally graded crystals which is valid throughout a given energy band and part way into the gaps. Near the edges of a simple or degenerate band this effective Hamiltonian reduces to an effective mass Hamiltonian with position dependent effective mass. Next, we examine more general states—not restricted to the vicinity of a band edge—in crystals with composition and applied potential variation in one direction. We obtain a WKB-type solution for the envelope functions, as well as the appropriate turning point connection rules.Keywords
This publication has 15 references indexed in Scilit:
- The justification for applying the effective-mass approximation to microstructuresJournal of Physics: Condensed Matter, 1992
- Position-dependent effective mass for inhomogeneous semiconductorsPhysical Review B, 1989
- Model effective-mass Hamiltonians for abrupt heterojunctions and the associated wave-function-matching conditionsPhysical Review B, 1984
- Position-dependent effective masses in semiconductor theoryPhysical Review B, 1983
- Interface connection rules for effective-mass wave functions at an abrupt heterojunction between two different semiconductorsPhysical Review B, 1983
- Wannier-Slater theorem for solids with nonuniform band structurePhysical Review B, 1982
- Effective-mass theory for carriers in graded mixed semiconductorsPhysical Review B, 1975
- Theory of Electronic States and Transport in Graded Mixed SemiconductorsPhysical Review B, 1969
- Space-Charge Effects on Electron TunnelingPhysical Review B, 1966
- Tunneling from an Independent-Particle Point of ViewPhysical Review B, 1961