Flux and fluence dependence of implantation disorder in GaAs substrates
- 1 August 1978
- journal article
- letter
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 49 (8) , 4568-4570
- https://doi.org/10.1063/1.325471
Abstract
A previously presented technique of measuring radiation damage using electroreflectance (ER) measurement is used to detect disorder dependencies for light and heavy ions as a function of flux and fluence. Lighter‐mass ions (Ne, N, and O) cause increasing damage with increasing flux for fluences less than 5×1013 cm−2 because of the decrease in radiation‐enhanced annealing. At higher fluences, the damage decreases with increasing flux probably because of thermal annealing. Heavy ions (Cd, Te, and Xe) exhibit the same type of behavior but at lower fluences because of the smaller penetration depths. The ER measurements of damage in ion‐implanted GaAs show clearly that the radiation‐enhanced and thermal‐annealing processes depend upon the energy density and damage concentration in the crystal.This publication has 9 references indexed in Scilit:
- Electroreflectance measurements of lattice damage in ion implanted GaAsJournal of Applied Physics, 1976
- Electroreflectance measurements of melt-doped and ion-implanted GaAsJournal of Applied Physics, 1975
- Tracking, pulsed ultrasonic interferometerReview of Scientific Instruments, 1975
- Dose rate effects in indium implanted GaAsRadiation Effects, 1974
- Ionization, thermal, and flux dependences of implantation disorder in siliconRadiation Effects, 1971
- Measurement of lattice damage caused by ion-implantation doping of semiconductors†Radiation Effects, 1971
- Flux and fluence dependence of disorder produced during implantation of11B in siliconRadiation Effects, 1971
- Transient annealing of defects in irradiated silicon devicesProceedings of the IEEE, 1970
- Thermal and Injection Annealing of Neutron-Irradiated p-Type Silicon between 76°K and 300°KIEEE Transactions on Nuclear Science, 1969