Plasmonically-powered hot carrier induced modulation of light emission in a two-dimensional GaAs semiconductor quantum well

Ashalley, Eric
Gryczynski, Karol
Wang, Zhiming
Salamo, Gregory
Neogi, Arup

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Publication date

December 2018

DOI

10.1039/C8NR07489E

Publisher

Royal Society of Chemistry (Great Britain)

Abstract

Article describes an experiment in which a hot-electron-enabled route to controlling light with dissipative loss compensation in semiconductor quantum light emitters has been realized for tunable quantum optoelectronic devices via a two-species plasmon system

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Plasmonically-powered hot carrier induced modulation of light emission in a two-dimensional GaAs semiconductor quantum well

Abstract

Extracted data

Plasmonically-powered hot carrier induced modulation of light emission in a two-dimensional GaAs semiconductor quantum well

Abstract

Extracted data

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