An artificial Rb atom in a semiconductor with lifetime-limited linewidth

We report results important for the creation of a best-of-both-worlds quantum hybrid system consisting of a solid-state source of single photons and an atomic ensemble as quantum memory. We generate single photons from a GaAs quantum dot (QD) frequency matched to the Rb D2 transitions and then use t...

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Veröffentlicht in:	Physical review. B 2015-12, Vol.92 (24), Article 245439
Hauptverfasser:	Jahn, Jan-Philipp, Munsch, Mathieu, Béguin, Lucas, Kuhlmann, Andreas V., Renggli, Martina, Huo, Yongheng, Ding, Fei, Trotta, Rinaldo, Reindl, Marcus, Schmidt, Oliver G., Rastelli, Armando, Treutlein, Philipp, Warburton, Richard J.
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Sprache:	eng
Schlagworte:	Condensed matter Excitation Photons Quantum dots Rayleigh scattering Resonance fluorescence Semiconductors Spectra
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container_issue	24
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container_title	Physical review. B
container_volume	92
creator	Jahn, Jan-Philipp Munsch, Mathieu Béguin, Lucas Kuhlmann, Andreas V. Renggli, Martina Huo, Yongheng Ding, Fei Trotta, Rinaldo Reindl, Marcus Schmidt, Oliver G. Rastelli, Armando Treutlein, Philipp Warburton, Richard J.
description	We report results important for the creation of a best-of-both-worlds quantum hybrid system consisting of a solid-state source of single photons and an atomic ensemble as quantum memory. We generate single photons from a GaAs quantum dot (QD) frequency matched to the Rb D2 transitions and then use the Rb transitions to analyze spectrally the quantum dot photons. We demonstrate lifetime-limited QD linewidths (1.42 GHz) with both resonant and nonresonant excitation. The QD resonance fluorescence in the low power regime is dominated by Rayleigh scattering, a route to match quantum dot and Rb atom linewidths and to shape the temporal wave packet of the QD photons. Noise in the solid-state environment is relatively benign: there is a blinking of the resonance fluorescence at MHz rates but negligible dephasing of the QD excitonic transition. We therefore demonstrate significant progress towards the realization of an ideal solid-state source of single photons at a key wavelength for quantum technologies.
doi_str_mv	10.1103/PhysRevB.92.245439
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subjects	Condensed matter Excitation Photons Quantum dots Rayleigh scattering Resonance fluorescence Semiconductors Spectra
title	An artificial Rb atom in a semiconductor with lifetime-limited linewidth
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