Tunneling Currents and theRelation
- 14 September 1970
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 25 (11), 756-759
- https://doi.org/10.1103/physrevlett.25.756
Abstract
The energy-momentum dispersion relation within the forbidden gap of a single-crystal insulator (in this case, GaSe) has been accurately determined using a simple physical model to describe tunneling currents in appropriate thin-film structures. This dispersion relation, calculated from experimental current-voltage data, is shown to be intrinsic to GaSe and capable of quantitatively predicting tunneling currents. The work reported here represents the first quantitative calculation of tunneling currents in metal-in-sulator-metal structures with all parameters relevant to the experiment independently determined.Keywords
This publication has 15 references indexed in Scilit:
- FUNDAMENTAL TRANSITION IN THE ELECTRONIC NATURE OF SOLIDSPhysical Review Letters, 1969
- THE EFFECT OF TRAPPING STATES ON TUNNELING IN METAL-SEMICONDUCTOR JUNCTIONSApplied Physics Letters, 1969
- Energy-Momentum Relationship in InAsPhysical Review Letters, 1968
- Tunneling Spectroscopy in GaAsPhysical Review B, 1967
- Surface representations and complex band structure of a diamond-type semiconductorProceedings of the Physical Society, 1966
- Experimental Energy-Momentum Relationship Determination Using Schottky BarriersPhysical Review Letters, 1966
- On the General Theory of Surface States and Scattering of Electrons in SolidsProceedings of the Physical Society, 1963
- Critical Points and Ultraviolet Reflectivity of SemiconductorsPhysical Review Letters, 1962
- Interband Transitions in Groups 4, 3-5, and 2-6 SemiconductorsPhysical Review Letters, 1962
- Zener tunneling in semiconductorsJournal of Physics and Chemistry of Solids, 1960