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A chiral one-dimensional atom using a quantum dot in an open microcavity

Physics

A chiral one-dimensional atom using a quantum dot in an open microcavity

N. O. Antoniadis, N. Tomm, et al.

Discover groundbreaking advancements in chiral quantum optics as researchers from the University of Basel unveil a single-photon diode with an impressive non-reciprocity of 10.7 dB, demonstrating the power of photon-emitter coupling.

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Playback language: English
Abstract
This paper demonstrates the implementation of chiral quantum optics using a low-noise quantum dot in an open microcavity. The researchers demonstrate non-reciprocal absorption of single photons, creating a single-photon diode with a non-reciprocity as high as 10.7 dB. This is achieved by tuning the photon-emitter coupling to the optimal condition (β = 0.5). The quantum nature of the nonlinearity is validated by observing photon bunching, demonstrating that the single-photon component is largely removed.
Publisher
npj Quantum Information
Published On
Mar 11, 2022
Authors
Nadia O. Antoniadis, Natasha Tomm, Tomasz Jakubczyk, Rüdiger Schott, Sascha R. Valentin, Andreas D. Wieck, Arne Ludwig, Richard J. Warburton, Alisa Javadi
Tags
chiral quantum optics
quantum dots
single-photon diode
non-reciprocal absorption
photon-emitter coupling
quantum nonlinearity
photon bunching

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