MBE growth and characterization of a II-VI distributed Bragg reflector   and microcavity lattice-matched to MgTe

J.-G. Rousset; J. Kobak; T. Slupinski; T. Jakubczyk; P. Stawicki; E.; Janik; M. Tokarczyk; G. Kowalski; M. Nawrocki; and W. Pacuski

arXiv:1210.1933·cond-mat.mes-hall·June 11, 2015

MBE growth and characterization of a II-VI distributed Bragg reflector and microcavity lattice-matched to MgTe

J.-G. Rousset, J. Kobak, T. Slupinski, T. Jakubczyk, P. Stawicki, E., Janik, M. Tokarczyk, G. Kowalski, M. Nawrocki, and W. Pacuski

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TL;DR

This paper reports the development and detailed optical characterization of a lattice-matched II-VI semiconductor distributed Bragg reflector and microcavity, advancing the integration of such structures for optoelectronic applications.

Contribution

It introduces a fully lattice-matched epitaxial DBR and microcavity based on (Cd,Zn)Te and (Cd,Zn,Mg)Te layers, with comprehensive optical characterization.

Findings

01

Achieved a 20-fold lattice-matched DBR with specific material layers.

02

Demonstrated optical properties through reflectivity and photoluminescence spectra.

03

Validated the potential of these structures for optoelectronic devices.

Abstract

We present the realization and characterization of a 20 fold, fully lattice-matched epitaxial distributed Bragg reflector based on (Cd,Zn)Te and (Cd,Zn,Mg)Te layers. We also present a microcavity based on (Cd,Zn,Mg)Te containing a (Cd,Zn)Te quantum well. Reflectivity spectra, photoluminescence in real space and in far field are presented.

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