AN OPTICALLY DETECTED CYCLOTRON-RESONANCE STUDY OF BULK GAAS

被引：21

作者：

MICHELS, JG ^{[1
]}

WARBURTON, RJ ^{[1
]}

NICHOLAS, RJ ^{[1
]}

STANLEY, CR ^{[1
]}

机构：

[1] UNIV GLASGOW,DEPT ELECTR & ELECT ENGN,GLASGOW G12 8QQ,SCOTLAND

来源：

SEMICONDUCTOR SCIENCE AND TECHNOLOGY | 1994年 / 9卷 / 02期

关键词：

D O I：

10.1088/0268-1242/9/2/012

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

We have measured optically detected cyclotron resonance using far-infrared radiation on an exceptionally pure sample of GaAs in fields up to 15.5 T. This relatively new experimental technique is shown to offer high resolution of free and donor impurity-bound electron transitions without the reproducibility problems of photoconductivity. The data confirm the existence of metastable donor states and provide a detailed picture of chemical shifts. The optically detected cyclotron resonance signal represents an interaction between the donor bound electron states which are influenced by the far-infrared radiation and the donor bound exciton states which are responsible for the photoluminescence. Attenuation of the luminescence intensity under far-infrared illumination is primarily the result of a photothermal effect. At high fields, there is indication of an interaction between the electron and excitonic energy levels.

引用

页码：198 / 206

页数：9

共 41 条

[11] FAR-INFRARED PHOTOCONDUCTIVITY SPECTROSCOPY OF HIGH-MOBILITY N-GAAS GROWN BY MBE [J].

GRIMES, RT ;

STANAWAY, MB ;

CHAMBERLAIN, JM ;

HENINI, M ;

HUGHES, OH .

SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 1989, 4 (07) :548-552

[12]

GRIMES RT, 1991, I PHYS C SER, V112, pCH4

[13]

GUBAREV SI, 1991, JETP LETT+, V54, P355

[14] DONOR IDENTIFICATION IN BULK GALLIUM-ARSENIDE [J].

HARRIS, TD ;

SKOLNICK, MS ;

PARSEY, JM ;

BHAT, R .

APPLIED PHYSICS LETTERS, 1988, 52 (05) :389-391

[15] COMMENTS ON THE ORIGIN OF LOW-ENERGY STRUCTURE OBSERVED IN THE FAR-INFRARED CYCLOTRON-RESONANCE OF ULTRA-HIGH MOBILITY N-GAAS AND N-INP [J].

HAWKSWORTH, SJ ;

GRIMES, RT ;

PEARL, EP ;

STANAWAY, MB ;

CHAMBERLAIN, JM ;

DUNN, JL ;

BATES, CA ;

NAJDA, SP ;

LANGERAK, CJGM ;

SINGLETON, J ;

STANLEY, CR .

SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 1992, 7 (12) :1499-1503

[16] LUMINESCENCE AND EXCITATION-SPECTRA OF EXCITON EMISSION IN GAAS [J].

HEIM, U ;

HIESINGE.P .

PHYSICA STATUS SOLIDI B-BASIC RESEARCH, 1974, 66 (02) :461-470

[17] CAPACITANCE MEASUREMENTS OF MAGNETIC LOCALIZATION AND MAGNETIC FREEZEOUT IN N--TYPE GAAS [J].

HICKMOTT, TW .

PHYSICAL REVIEW B, 1988, 38 (17) :12404-12415

[18] RESIDUAL DONOR CONTAMINATION IN MOCVD, MOMBE AND MBE GAAS STUDIED BY FAR-INFRARED SPECTROSCOPY [J].

HOLMES, S ;

PHILLIPS, CC ;

STRADLING, RA ;

WASILEWSKI, Z ;

DROOPAD, R ;

PARKER, SD ;

YUEN, WT ;

BALK, P ;

BRAUERS, A ;

HEINECKE, H ;

PLASS, C ;

WEYERS, M ;

FOXON, CT ;

JOYCE, BA ;

SMITH, GW ;

WHITEHOUSE, CR .

SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 1989, 4 (09) :782-790

[19]

HOPFIELD JJ, 1964, 7TH P INT C PHYS SEM, P725

[20] A STUDY OF THE CONDUCTION-BAND NONPARABOLICITY, ANISOTROPY AND SPIN SPLITTING IN GAAS AND INP [J].

HOPKINS, MA ;

NICHOLAS, RJ ;

PFEFFER, P ;

ZAWADZKI, W ;

GAUTHIER, D ;

PORTAL, JC ;

DIFORTEPOISSON, MA .

SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 1987, 2 (09) :568-577

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