Semiconductor biased superlattice tunable electron interference filter/emitter
- 1 August 1989
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 66 (3) , 1494-1497
- https://doi.org/10.1063/1.344408
Abstract
It is shown that a voltage-biased semiconductor superlattice structure can serve simultaneously as a tunable electron-wave interference filter and electron emitter. A systematic design procedure for selecting the quantum well and barrier widths to be alternately high and low electron refractive indices and a quarter (or a half) of an electron wavelength in thickness is developed. A practical narrow-band filter/emitter consisting of layers of Ga1−xAlxAs and designed to emit 0.20-eV electrons is presented and analyzed. Such a structure would serve well as a tunable hot-electron emitter in ballistic transistors, and in future guided electron-wave integrated circuits.This publication has 12 references indexed in Scilit:
- Semiconductor superlattice interference filter designJournal of Applied Physics, 1989
- Electron wave optics in semiconductorsJournal of Applied Physics, 1989
- Semiconductor superlattice electron wave interference filtersApplied Physics Letters, 1988
- Ballistic electrons and holes observed in a semiconductorOptics News, 1988
- Quantum interference effects in GaAs/GaAlAs bulk potential barriersApplied Physics Letters, 1988
- Observation of electron quantum interference effects due to virtual states in a double-barrier heterostructure at room temperatureApplied Physics Letters, 1988
- Observation of resonant tunneling through a compositionally graded parabolic quantum wellApplied Physics Letters, 1987
- Electron interference effects in quantum wells: Observation of bound and resonant statesPhysical Review Letters, 1987
- Direct Observation of Ballistic Transport in GaAsPhysical Review Letters, 1985
- Superlattice and Negative Differential Conductivity in SemiconductorsIBM Journal of Research and Development, 1970