EFFECTS OF ORDERING ON THE ELECTRON EFFECTIVE-MASS AND STRAIN DEFORMATION POTENTIAL IN GAINP2 - DEFICIENCIES OF THE K-CENTER-DOT-P MODEL

Authors
FRANCESCHETTI A WEI SH ZUNGER A
Citation
A. Franceschetti et al., EFFECTS OF ORDERING ON THE ELECTRON EFFECTIVE-MASS AND STRAIN DEFORMATION POTENTIAL IN GAINP2 - DEFICIENCIES OF THE K-CENTER-DOT-P MODEL, Physical review. B, Condensed matter, 52(19), 1995, pp. 13992-13997
Citations number
39
Categorie Soggetti
Physics, Condensed Matter
Journal title
Physical review. B, Condensed matterACNP
ISSN journal
01631829
Volume
52
Issue
19
Year of publication
1995
Pages
13992 - 13997
Database
ISI
SICI code
0163-1829(1995)52:19<13992:EOOOTE>2.0.ZU;2-S
Abstract
The conventional eight-band k . p model predicts a decrease of the ele ctron effective mass and no dependence of the (001) strain band-gap de formation potential with the degree eta of long-range order in Ga0.5In 0.5P alloys. We show that a complete band-structure approach predicts instead that (i) the electron effective mass in the ordering direction increases from 0.092m(0) for eta = 0 (random alloy) to 0.133m(0) for eta = 1 (ordered alloy), and (ii) the strain deformation potential dec reases in magnitude from 8.26 eV for eta = 0 to 6.34 eV for eta = 1. T hese two effects are caused by the mixing of the conduction-band minim um with the L-derived conduction band, neglected in the standard eight -band model.