OPTOELECTRONIC APPLICATIONS OF LTMBE III-V MATERIALS

被引：72

作者：

WHITAKER, JF

机构：

[1] Center for Ultrafast Optical Science, University of Michigan, Ann Arbor, MI 48109-2099, 2200 Bonisteel Blvd

来源：

MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE MATERIALS FOR ADVANCED TECHNOLOGY | 1993年 / 22卷 / 01期

基金：

美国国家科学基金会;

关键词：

D O I：

10.1016/0921-5107(93)90224-B

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

A review of the application of semiconductor layers grown at low substrate temperatures to ultrafast optoelectronics is presented. The films, grown by molecular beam epitaxy primarily around 200 degrees C and subsequently annealed, are demonstrated to have high resistivity, high mobility, an ultrashort carrier lifetime, and a high dielectric breakdown. This combination of properties makes the low-temperature-grown materials perfectly suited for use in high-speed optoelectronic devices. A number of issues which influence the application of these materials, such as growth temperature, use of an annealing process, layer thickness, and optical wavelength, are considered. Examples of low-temperature-grown semiconductor optoelectronic devices, including ultra-high-bandwidth photoconductive detectors, high-sensitivity, high-bandwidth MSM photodetectors, and optical temporal analyzers are demonstrated. While the discussion concentrates on low-temperatures-grown GaAs, the lattice-mismatched ternary compound InxGal-xAs/GaAs is also considered in the context of detection of the longer wavelengths used in optical communications.

引用

页码：61 / 67

页数：7

共 31 条

[21]

Nunnally R., 1984, PICOSECOND OPTOELECT, P373

[22] EFFICIENT GENERATION OF 480 FS ELECTRICAL PULSES ON TRANSMISSION-LINES BY PHOTOCONDUCTIVE SWITCHING IN METALORGANIC CHEMICAL VAPOR-DEPOSITED CDTE [J].

NUSS, MC ;

KISKER, DW ;

SMITH, PR ;

HARVEY, TE .

APPLIED PHYSICS LETTERS, 1989, 54 (01) :57-59

[23] PICOSECOND GAAS-BASED PHOTOCONDUCTIVE OPTOELECTRONIC DETECTORS [J].

SMITH, FW ;

LE, HQ ;

DIADIUK, V ;

HOLLIS, MA ;

CALAWA, AR ;

GUPTA, S ;

FRANKEL, M ;

DYKAAR, DR ;

MOUROU, GA ;

HSIANG, TY .

APPLIED PHYSICS LETTERS, 1989, 54 (10) :890-892

[24] SUBPICOSECOND ELECTROOPTIC SAMPLING - PRINCIPLES AND APPLICATIONS [J].

VALDMANIS, JA ;

MOUROU, G .

IEEE JOURNAL OF QUANTUM ELECTRONICS, 1986, 22 (01) :69-78

[25] PHOTOLUMINESCENCE FROM HOT CARRIERS IN LOW-TEMPERATURE-GROWN GALLIUM-ARSENIDE [J].

VANDRIEL, HM ;

ZHOU, XQ ;

RUHLE, WW ;

KUHL, J ;

PLOOG, K .

APPLIED PHYSICS LETTERS, 1992, 60 (18) :2246-2248

[26] 105-GHZ BANDWIDTH METAL-SEMICONDUCTOR METAL PHOTODIODE [J].

VANZEGHBROECK, BJ ;

PATRICK, W ;

HALBOUT, JM ;

VETTIGER, P .

IEEE ELECTRON DEVICE LETTERS, 1988, 9 (10) :527-529

[27]

WANG HH, IN PRESS J ELECTRON

[28] SUBPICOSECOND, FREELY PROPAGATING ELECTROMAGNETIC PULSE GENERATION AND DETECTION USING GAAS-AS EPILAYERS [J].

WARREN, AC ;

KATZENELLENBOGEN, N ;

GRISCHKOWSKY, D ;

WOODALL, JM ;

MELLOCH, MR ;

OTSUKA, N .

APPLIED PHYSICS LETTERS, 1991, 58 (14) :1512-1514

[29] 1.3-MU-M P-I-N PHOTODETECTOR USING GAAS WITH AS PRECIPITATES (GAAS-AS) [J].

WARREN, AC ;

BURROUGHES, JH ;

WOODALL, JM ;

MCINTURFF, DT ;

HODGSON, RT ;

MELLOCH, MR .

IEEE ELECTRON DEVICE LETTERS, 1991, 12 (10) :527-529

[30] ARSENIC PRECIPITATES AND THE SEMI-INSULATING PROPERTIES OF GAAS BUFFER LAYERS GROWN BY LOW-TEMPERATURE MOLECULAR-BEAM EPITAXY [J].

WARREN, AC ;

WOODALL, JM ;

FREEOUF, JL ;

GRISCHKOWSKY, D ;

MCINTURFF, DT ;

MELLOCH, MR ;

OTSUKA, N .

APPLIED PHYSICS LETTERS, 1990, 57 (13) :1331-1333

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