Interface capacitance in metal-semiconductor junctions
- 1 May 1989
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 65 (9) , 3560-3567
- https://doi.org/10.1063/1.342631
Abstract
A new theory of the interface capacitance at metal-semiconductor junctions is presented. The diode capacitance is attributed to the modulation of the effective Schottky barrier height by interface charge. Relations between the measured capacitance and the physical properties of the interface states are formulated by using Shockley–Read statistics and taking into account the electron relaxation-time dispersion. This theory is applied to NiSi2-nSi diodes with both epitaxial and nonepitaxial interfaces. Spectra of density distribution, as well as other interface parameters, are obtained, indicating that interface states in these diodes are most probably defect related.This publication has 17 references indexed in Scilit:
- An improved differential voltage technique for capacitance measurementSolid-State Electronics, 1988
- Interface-State Measurements at Schottky Contacts: A New Admittance TechniquePhysical Review Letters, 1986
- Study of metal-semiconductor interface states using Schottky capacitance spectroscopyJournal of Physics C: Solid State Physics, 1983
- Formation of Ultrathin Single-Crystal Silicide Films on Si: Surface and Interfacial Stabilization of Si-NiEpitaxial StructuresPhysical Review Letters, 1983
- Self-Consistent Pseudopotential Calculation for a Metal-Semiconductor InterfacePhysical Review Letters, 1975
- Minority carrier effects upon the small signal and steady-state properties of Schottky diodesSolid-State Electronics, 1973
- Comments on the conduction mechanism in Schottky diodesJournal of Physics D: Applied Physics, 1972
- Statistics of the Recombinations of Holes and ElectronsPhysical Review B, 1952
- Vereinfachte und erweiterte Theorie der Randschicht-gleichrichterThe European Physical Journal A, 1942
- Zur Halbleitertheorie der Sperrschicht- und SpitzengleichrichterThe European Physical Journal A, 1939