Light Scattering from Solid-State Quantum Emitters: Beyond the Atomic Picture

Coherent scattering of light by a single quantum emitter is a fundamental process at the heart of many proposed quantum technologies. Unlike atomic systems, solid-state emitters couple to their host lattice by phonons. Using a quantum dot in an optical nanocavity, we resolve these interactions in bo...

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Veröffentlicht in:	Physical review letters 2019-10, Vol.123 (16), p.1-167403, Article 167403
Hauptverfasser:	Brash, Alistair J., Iles-Smith, Jake, Phillips, Catherine L., McCutcheon, Dara P. S., O’Hara, John, Clarke, Edmund, Royall, Benjamin, Wilson, Luke R., Mørk, Jesper, Skolnick, Maurice S., Fox, A. Mark, Nazir, Ahsan
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Sprache:	eng
Schlagworte:	Coherent scattering Emitters Light scattering Phonons Quantum dots Solid state
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creator	Brash, Alistair J. Iles-Smith, Jake Phillips, Catherine L. McCutcheon, Dara P. S. O’Hara, John Clarke, Edmund Royall, Benjamin Wilson, Luke R. Mørk, Jesper Skolnick, Maurice S. Fox, A. Mark Nazir, Ahsan
description	Coherent scattering of light by a single quantum emitter is a fundamental process at the heart of many proposed quantum technologies. Unlike atomic systems, solid-state emitters couple to their host lattice by phonons. Using a quantum dot in an optical nanocavity, we resolve these interactions in both time and frequency domains, going beyond the atomic picture to develop a comprehensive model of light scattering from solid-state emitters. We find that even in the presence of a low-Q cavity with high Purcell enhancement, phonon coupling leads to a sideband that is completely insensitive to excitation conditions and to a nonmonotonic relationship between laser detuning and coherent fraction, both of which are major deviations from atomlike behavior.
doi_str_mv	10.1103/PhysRevLett.123.167403
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source	American Physical Society Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Coherent scattering Emitters Light scattering Phonons Quantum dots Solid state
title	Light Scattering from Solid-State Quantum Emitters: Beyond the Atomic Picture
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