Thermally induced metastability in compensated and delta-doped amorphous silicon

1 December 1991

journal article
Published by Taylor & Francis in Philosophical Magazine Part B

Vol. 64 (6) , 689-696
https://doi.org/10.1080/13642819108207630

Abstract

We have studied the conductivity changes induced by thermal quenching in compensated hydrogenated amorphous silicon (a-Si: H) films with various compensation ratios of boron and phosphorus as well as in delta-doped a-Si: H films. The magnitude of the excess conductivity upon rapid cooling increases as the Fermi level approaches the band edges. We suggest a microscopic mechanism for generation of excess carriers by rapid cooling through dopant activation. The relaxation of the excess conductivity follows a stretched-exponential form. However, the activation energy for the relaxation time is found to be smaller than those for both undoped and singly doped a-Si: H films.

Keywords

This publication has 14 references indexed in Scilit:

Role of band-tail carriers in metastable defect formation and annealing in hydrogenated amorphous silicon
Physical Review B, 1990
Thermally and light-induced instabilities in phosphorus-doped hydrogenated amorphous silicon
Applied Physics Letters, 1988
Charge-trapping model of metastability in doped hydrogenated amorphous silicon
Physical Review B, 1988
Thermal-equilibrium processes and electronic transport in undoped hydrogenated amorphous silicon
Philosophical Magazine Letters, 1988
Mechanisms of thermal equilibration in doped amorphous silicon
Physical Review B, 1988
Stretched-exponential relaxation arising from dispersive diffusion of hydrogen in amorphous silicon
Physical Review Letters, 1987
Equilibrium temperature and related defects in intrinsic glow discharge amorphous silicon
Applied Physics Letters, 1987
Localized states in compensated $a - S i : H$
Physical Review B, 1984
Optically induced excess conductivity in compensated a-Si:H films
Journal of Non-Crystalline Solids, 1983
Defect states in doped and compensated $a$ -Si: H
Physical Review B, 1981