Mechanism of forming ohmic contacts to GaAs
- 19 August 1991
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 59 (8) , 947-949
- https://doi.org/10.1063/1.106310
Abstract
The distribution of Si dopant at the Au/GaAs interface after heat treatment has been studied using spatially resolved secondary-ion mass spectrometry. Previously it has been shown that heat treatment changes as deposited Au thin film from Schottky contacts to ohmic contacts. The present study shows that the transition to an ohmic contact results from segregation of dopants in areas where GaAs is decomposed by reacting with the Au overlayer. Thus the ohmic contact is spatially very inhomogeneous at the metal/semiconductor interface. The mechanism leading to concentrations of the Si and nonuniform ohmic contacts is discussed, and segregation to the solid during decomposition of the GaAs is the most likely mechanism.Keywords
This publication has 13 references indexed in Scilit:
- Summary Abstract: Thermal degradation of Au/GaAs contactsJournal of Vacuum Science & Technology A, 1988
- Summary Abstract: Reactivity of Au with GaAsJournal of Vacuum Science & Technology A, 1987
- Pyramidal pit formation at the Au/GaAs interface during heat treatmentPhysica Status Solidi (a), 1986
- Ohmic contacts to III–V compound semiconductors: A review of fabrication techniquesSolid-State Electronics, 1983
- The structure and properties of metal-semiconductor interfacesSurface Science Reports, 1982
- Ambient effects on the out-diffusion of GaAs through thin gold filmsJournal of Vacuum Science and Technology, 1980
- The Alloying of Gold and Gold Alloy Ohmic Contact Metallizations with Gallium ArsenideJournal of the Electrochemical Society, 1980
- Variation of Schottky-barrier energy with interdiffusion in Au and Ni/Au–Ge films on GaAsJournal of Vacuum Science and Technology, 1976
- Outmigration of gallium from Au-GaAs interfacesElectronics Letters, 1975
- Effect of alloying behavior on the electrical characteristics of n-GaAs Schottky diodes metallized with W, Au, and PtApplied Physics Letters, 1973