Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory

M.A.M. Versteegh; D.A.M. Vanmaekelbergh; J.I. Dijkhuis

doi:10.1103/PhysRevLett.108.157402

Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory

M.A.M. Versteegh, D.A.M. Vanmaekelbergh, J.I. Dijkhuis

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

Abstract

Are excitons involved in lasing in ZnO nanowires or not? Our recently developed and experimentally tested quantum many-body theory sheds new light on this question. We measured the laser thresholds and Fabry-Pérot laser modes for three radically different excitation schemes. The thresholds, photon energies, and mode spacings can all be explained by our theory, without invoking enhanced light-matter interaction, as is needed in an earlier excitonic model. Our conclusion is that lasing in ZnO nanowires at room temperature is not of excitonic nature, as is often thought, but instead is electron-hole plasma lasing

Original language	English
Article number	157402
Pages (from-to)	1-5
Number of pages	5
Journal	Physical Review Letters
Volume	108
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.108.157402
Publication status	Published - 2012

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title = "Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory",

abstract = "Are excitons involved in lasing in ZnO nanowires or not? Our recently developed and experimentally tested quantum many-body theory sheds new light on this question. We measured the laser thresholds and Fabry-P{\'e}rot laser modes for three radically different excitation schemes. The thresholds, photon energies, and mode spacings can all be explained by our theory, without invoking enhanced light-matter interaction, as is needed in an earlier excitonic model. Our conclusion is that lasing in ZnO nanowires at room temperature is not of excitonic nature, as is often thought, but instead is electron-hole plasma lasing",

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AB - Are excitons involved in lasing in ZnO nanowires or not? Our recently developed and experimentally tested quantum many-body theory sheds new light on this question. We measured the laser thresholds and Fabry-Pérot laser modes for three radically different excitation schemes. The thresholds, photon energies, and mode spacings can all be explained by our theory, without invoking enhanced light-matter interaction, as is needed in an earlier excitonic model. Our conclusion is that lasing in ZnO nanowires at room temperature is not of excitonic nature, as is often thought, but instead is electron-hole plasma lasing

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Room-Temperature Laser Emission of ZnO Nanowires Explained by Many-Body Theory

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