Robust electrical spin injection into a semiconductor heterostructure

B. T. Jonker; Y. D. Park; B. R. Bennett; H. D. Cheong; G. Kioseoglou; A. Petrou

doi:10.1103/PhysRevB.62.8180

Robust electrical spin injection into a semiconductor heterostructure

B. T. Jonker, Y. D. Park, B. R. Bennett, H. D. Cheong, G. Kioseoglou, and A. Petrou

Phys. Rev. B 62, 8180 – Published 15 September 2000

Abstract

We report efficient electrical injection of spin-polarized carriers from a non-lattice-matched magnetic contact into a semiconductor heterostructure. The semimagnetic semiconductor ${Zn}_{1 - x} {Mn}_{x} Se$ is used as a spin-injecting contact on a GaAs-based light-emitting diode. Spin-polarized electrons are electrically injected across the II-VI/III-V interface, where they radiatively recombine in a GaAs quantum well and emit circularly polarized light. An analysis of the optical polarization which includes quantum confinement effects yields a lower bound of 50% for the spin injection efficiency.

Received 13 January 2000

DOI:https://doi.org/10.1103/PhysRevB.62.8180

Authors & Affiliations

B. T. Jonker^*, Y. D. Park^†, and B. R. Bennett

Naval Research Laboratory, Washington, DC 20375

H. D. Cheong, G. Kioseoglou, and A. Petrou

State University of New York at Buffalo, Buffalo, New York 14260

^*Author to whom correspondence should be addressed. Email address: jonker@nrl.navy.mil
^†National Research Council Postdoctoral Associate.

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Vol. 62, Iss. 12 — 15 September 2000

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