Title :
Pulsed ruby laser diffusion of tin into GaAs
Author :
Kalkur, T.S. ; Nassibian, A.G. ; Rose, A.
Author_Institution :
University of Colorado, Department of Electrical Engineering, Colorado Springs, USA
fDate :
4/1/1987 12:00:00 AM
Abstract :
Spin-on tin silica films deposited on semi-insulating undoped GaAs were irradiated by a ruby laser at various incident energies. The resulting tin diffused layers, characterised by Hall effect measurements, show the formation of an n+ layer. The surfaces of the tin doped layers were observed in a scanning electron microscope and analysed in an electron microprobe. The concentration of tin in laser diffused and thermally diffused layers was compared by Rutherford backscattering measurements. Typical FET contact structures show higher breakdown voltages for laser diffused layers than for thermally diffused layers.
Keywords :
Hall effect; III-V semiconductors; diffusion in solids; electron probe analysis; field effect transistors; gallium arsenide; laser beam applications; particle backscattering; scanning electron microscope examination of materials; semiconductor doping; tin; FET contact structures; GaAs-Sn-SiO2; GaAs:Sn; Hall effect measurements; III-V semiconductors; Rutherford backscattering measurements; breakdown voltages; electron microprobe; impurity concentration; interdiffusion; n+ layer formation; pulsed ruby laser diffusion; scanning electron microscope; semiconductor doping; semiinsulating undoped substrate;
Journal_Title :
Solid-State and Electron Devices, IEE Proceedings I
DOI :
10.1049/ip-i-1.1987.0010
