Realization of a Coherent and Efficient One-Dimensional Atom
A quantum emitter interacting with photons in a single optical-mode constitutes a one-dimensional atom. A coherent and efficiently coupled one-dimensional atom provides a large nonlinearity, enabling photonic quantum gates. Achieving a high coupling efficiency (β factor) and low dephasing is challen...
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creator | Tomm, Natasha Antoniadis, Nadia O Janovitch, Marcelo Brunelli, Matteo Schott, Rüdiger Valentin, Sascha R Wieck, Andreas D Ludwig, Arne Potts, Patrick P Javadi, Alisa Warburton, Richard J |
description | A quantum emitter interacting with photons in a single optical-mode constitutes a one-dimensional atom. A coherent and efficiently coupled one-dimensional atom provides a large nonlinearity, enabling photonic quantum gates. Achieving a high coupling efficiency (β factor) and low dephasing is challenging. Here, we use a semiconductor quantum dot in an open microcavity as an implementation of a one-dimensional atom. With a weak laser input, we achieve an extinction of 99.2% in transmission and a concomitant bunching in the photon statistics of g^{(2)}(0)=587, showcasing the reflection of the single-photon component and the transmission of the multi-photon components of the coherent input. The tunable nature of the microcavity allows β to be adjusted and gives control over the photon statistics-from strong bunching to antibunching-and the phase of the transmitted photons. We obtain excellent agreement between experiment and theory by going beyond the single-mode Jaynes-Cummings model. Our results pave the way towards the creation of exotic photonic states and two-photon phase gates. |
doi_str_mv | 10.1103/PhysRevLett.133.083602 |
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title | Realization of a Coherent and Efficient One-Dimensional Atom |
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