Infrared Absorption in Neutron-Irradiated GaAs

1 July 1969

journal article
conference paper
Published by AIP Publishing in Journal of Applied Physics

Vol. 40 (8) , 3268-3273
https://doi.org/10.1063/1.1658173

Abstract

The effect of fast‐neutron irradiation on infrared attenuation in single‐crystal GaAs has been investigated. Both n‐ and p‐type materials of several dopant concentrations were exposed to seven fluences of fast neutrons (> 10 keV) from 5×10¹⁴ to 1.5×10¹⁸ neutrons/cm². Infrared transmission was measured before and after exposure. At low fluences, the free‐carrier absorption of all samples was reduced by neutron irradiation. At the higher neutron fluences, an absorption process which showed no structure and varied approximately as the square of the photon energy was observed to dominate the free‐carrier absorption. This absorption increased linearly with fast neutron fluence and was the same for all samples studied independent of impurity type and initial concentration. The results are in agreement with a neutron‐produced spike absorption mechanism proposed by McNichols and Ginell.

This publication has 8 references indexed in Scilit:

Optical Absorption due to Inter-Conduction-Minimum Transitions in Gallium Arsenide
Physical Review B, 1968
Theory of Anomalous Infrared Attenuation in Neutron-Irradiated Compound Semiconductors
Journal of Applied Physics, 1967
Effect of Fast-Neutron Irradiation on Optical Attenuation in Compound Semiconductors
IEEE Transactions on Nuclear Science, 1967
Radiation Effects in GaAs
Journal of Applied Physics, 1963
The valence band structure of the III–V compounds
Journal of Physics and Chemistry of Solids, 1962
Lattice Absorption in Gallium Arsenide
Journal of Applied Physics, 1961
Infrared Absorption and Electron Effective Mass in $n$ -Type Gallium Arsenide
Physical Review B, 1959
Determination of Optical Constants and Carrier Effective Mass of Semiconductors
Physical Review B, 1957