Optoelectronic properties of n-type CdZnTe 2-DEG single-quantum-well heterostructures

Author

Atanackovic, Petar B. ; Steele, Timothy A. ; Munch, Jesper

Author_Institution

Defence Sci. & Technol. Organ., Salisbury, SA, Australia

Volume

33

Issue

3

fYear

1997

fDate

3/1/1997 12:00:00 AM

Firstpage

393

Lastpage

403

Abstract

Optoelectronic properties of asymmetrically strained II-VI CdZnTe single-quantum-well structures grown by molecular-beam epitaxy are reported. Indium doping CdZnTe n-type using a two-dimensional electron gas heterostructure achieved a carrier mobility of 5000 cm²·V^-1 s^-1 at 40 K. A shallow donor ionization energy of 14.5 meV was determined from Hall effect measurements. Fabrication of a large-area-mesa heterostructure device allowed us to investigate exciton absorption of the mixed type-I and type-II single quantum well. Control of the electron concentration in the quantum well allows optical absorption modulation using both the quantum-confined Stark effect (QCSE) and phase-space absorption quenching. Separation of electron and hole photocurrents in different layers is demonstrated and results in photogain. A heavy-hole red-shift of 9.9 meV/V due to the reverse QCSE is reported

Keywords

Hall effect; II-VI semiconductors; cadmium compounds; carrier mobility; deformation; electro-optical modulation; indium; molecular beam epitaxial growth; optical fabrication; optoelectronic devices; quantum confined Stark effect; red shift; semiconductor device testing; semiconductor doping; semiconductor growth; semiconductor quantum wells; two-dimensional electron gas; zinc compounds; 14.5 meV; 40 K; CdZnTe; CdZnTe:In; Hall effect measurements; asymmetrically strained; carrier mobility; electron concentration; electron photocurrents; exciton absorption; heavy-hole red-shift; hole photocurrents; indium doping CdZnTe; large-area-mesa heterostructure device; molecular-beam epitaxy; n-type CdZnTe 2-DEG single-quantum-well heterostructures; optical absorption modulation; optoelectronic properties; phase-space absorption quenching; photogain; quantum-confined Stark effect; shallow donor ionization energy; two-dimensional electron gas heterostructure; type-I single quantum well; type-II single quantum well; Absorption; Doping; Electron mobility; Energy measurement; Hall effect; Indium; Ionization; Molecular beam epitaxial growth; Optical device fabrication; Optical modulation;

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/3.556008

Filename

556008