论文信息 - Stoichiometry dependence of electrical activation efficiency in Si implanted layers of undoped, semi‐insulating GaAs

Stoichiometry dependence of electrical activation efficiency in Si implanted layers of undoped, semi‐insulating GaAs

Stoichiometry dependences of the electrical activation efficiency in Si implanted layers have been investigated for undoped, semi‐insulating (SI) liquid encapsulated Czochralski (LEC) GaAs grown from melts of different compositions. The absolute value of lattice parameter was used as a measure for deviation from stoichiometry in GaAs. Irrespective of the annealing procedures, the electrical activation efficiency tends to increase and saturate to a maximum value as the crystals become As‐rich, i.e., the lattice parameter increases from 0.565358 to 0.565364 nm. These results demonstrate that the precise control of stoichiometry greatly improves the reproducibility of LEC growth of undoped SI GaAs suitable for GaAs integrated circuits.

Takashi Sato | T. Fukuda | K. Ishida | M. Nakajima

[1] Takashi Sato,et al. Study of nonstoichiometry in undoped semi‐insulating GaAs using precise lattice parameter measurements , 1986 .

[2] T. Fukunaga,et al. Surface Defect Formation in GaAs Layers Grown on Intentionally Contaminated Substrate by Molecular Beam Epitaxy , 1985 .

[3] N. Matsunaga,et al. Measurements of Compositional Change in Semi-Insulating GaAs Single Crystals by Precise Lattice Parameter Measurements , 1985 .

[4] P. Asbeck,et al. Correlation of threshold voltage of implanted field‐effect transistors and carbon in GaAs substrates , 1984 .

[5] C. Kirkpatrick,et al. Infrared absorption of the 78‐meV acceptor in GaAs , 1982 .

[6] A. Willoughby,et al. A study of non-stoichiometry in gallium arsenide by precision lattice parameter measurements , 1971 .