On-chip generation and guiding of quantum light from a site-controlled quantum dot

Andre Schwagmann; Andrew J. Shields; Ayesha Jamil; David A. Ritchie; David J. P. Ellis; Geb A. C. Jones; Ian Farrer; Joanna Skiba-Szymanska; Jonathan P. Griffiths; Martin B. Ward

arxiv: 1403.3221 · v1 · pith:352WZCCMnew · submitted 2014-03-13 · ⚛️ physics.optics

On-chip generation and guiding of quantum light from a site-controlled quantum dot

Ayesha Jamil , Joanna Skiba-Szymanska , Sokratis Kalliakos , Andre Schwagmann , Martin B. Ward , Yarden Brody , David J. P. Ellis , Ian Farrer

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Jonathan P. Griffiths Geb A. C. Jones David A. Ritchie Andrew J. Shields

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classification ⚛️ physics.optics

keywords quantumemissionphotonicstepwaveguideactivelyalongarrays

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We demonstrate the emission and routing of single photons along a semiconductor chip originating from carrier recombination in an actively positioned InAs quantum dot. Device scale arrays of quantum dots are formed by a two step regrowth process. We precisely locate the propagating region of a unidirectional photonic crystal waveguide with respect to the quantum dot nucleation site. Under pulsed optical excitation, the multiphoton emission probability from the exit of the waveguide is 12 \pm 5 % before any background correction. Our results are a major step towards the deterministic integration of a quantum emitter with the waveguiding components of photonic quantum circuits.

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On-chip generation and guiding of quantum light from a site-controlled quantum dot

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