Electrical spin injection and transport in semiconductor spintronic devices

Berend T. Jonker; Steven C. Erwin; Athos Petrou; Andre G. Petukhov

doi:10.1557/mrs2003.216

Electrical spin injection and transport in semiconductor spintronic devices

Berend T. Jonker
, Steven C. Erwin
, Athos Petrou
, Andre G. Petukhov

Physics

University at Buffalo

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

Semiconductor heterostructures that utilize carrier spin as a new degree of freedom offer entirely new functionality and enhanced performance over conventional devices. We describe the essential requirements for implementing this technology, focusing on the materials and interface issues relevant to electrical spin injection into a semiconductor. These are discussed and illustrated in the context of several prototype semiconductor spintronic devices, including spin-polarized light-emitting diodes and resonant tunneling structures such as the resonant interband tunneling diode.

Original language	English
Pages (from-to)	740-748
Number of pages	9
Journal	MRS Bulletin
Volume	28
Issue number	10
DOIs	https://doi.org/10.1557/mrs2003.216
State	Published - Oct 2003

Keywords

Ferromagnetic materials
Semiconductors
Spin injection
Spin-polarized materials
Spintronics

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10.1557/mrs2003.216

Cite this

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abstract = "Semiconductor heterostructures that utilize carrier spin as a new degree of freedom offer entirely new functionality and enhanced performance over conventional devices. We describe the essential requirements for implementing this technology, focusing on the materials and interface issues relevant to electrical spin injection into a semiconductor. These are discussed and illustrated in the context of several prototype semiconductor spintronic devices, including spin-polarized light-emitting diodes and resonant tunneling structures such as the resonant interband tunneling diode.",

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AU - Petrou, Athos

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AB - Semiconductor heterostructures that utilize carrier spin as a new degree of freedom offer entirely new functionality and enhanced performance over conventional devices. We describe the essential requirements for implementing this technology, focusing on the materials and interface issues relevant to electrical spin injection into a semiconductor. These are discussed and illustrated in the context of several prototype semiconductor spintronic devices, including spin-polarized light-emitting diodes and resonant tunneling structures such as the resonant interband tunneling diode.

KW - Ferromagnetic materials

KW - Semiconductors

KW - Spin injection

KW - Spin-polarized materials

KW - Spintronics

UR - https://www.scopus.com/pages/publications/0142154296

U2 - 10.1557/mrs2003.216

DO - 10.1557/mrs2003.216

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Electrical spin injection and transport in semiconductor spintronic devices

Abstract

Keywords

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