QUANTUM-CHEMICAL SIMULATIONS OF HOLE SELF-TRAPPING IN SEMI-IONIC CRYSTALS

被引：29

作者：

KANTOROVICH, L

STASHANS, A

KOTOMIN, E

JACOBS, PWM

机构：

[1] UNIV LATVIA,INST SOLID STATE PHYS,RIGA LV1050,LATVIA

[2] UNIV WESTERN ONTARIO,DEPT CHEM,LONDON N6A 5B7,ONTARIO,CANADA

来源：

INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY | 1994年 / 52卷 / 05期

关键词：

D O I：

10.1002/qua.560520505

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

A novel formalism is presented for reliable calculations of the energetics of hole self-trapping in semi-ionic solids with mixed valence bands. Unlike previous model-Hamiltonian-type approaches, it is based on self-consistent quantum chemical INDO simulations of the atomistic and electronic structure of a self-trapped hole, making no a priori assumptions about a particular form of its localization (if any). This formalism is applied to the problem of hole self-trapping in corundum crystals (alpha - Al2O3). The hole self-trapping is found to be energetically favorable in the form of a diatomic O2 molecule with strong covalent bonding quite similar to the self-trapped hole (V(K)-center) in alkali halides. The so-called localization energy (i.e., the energy that is required to localize the Bloch-like wave packet of the free hole on the molecule, as the first stage of further trapping) is essentially less than one-half of the upper valence band width, which is the commonly used for ionic solids. (C) 1994 John Wiley & Sons, Inc.

引用

页码：1177 / 1198

页数：22

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