Literature DB >> 26854569

A quantum phase switch between a single solid-state spin and a photon.

Shuo Sun1, Hyochul Kim1, Glenn S Solomon2, Edo Waks1.   

Abstract

Interactions between single spins and photons are essential for quantum networks and distributed quantum computation. Achieving spin-photon interactions in a solid-state device could enable compact chip-integrated quantum circuits operating at gigahertz bandwidths. Many theoretical works have suggested using spins embedded in nanophotonic structures to attain this high-speed interface. These proposals implement a quantum switch where the spin flips the state of the photon and a photon flips the spin state. However, such a switch has not yet been realized using a solid-state spin system. Here, we report an experimental realization of a spin-photon quantum switch using a single solid-state spin embedded in a nanophotonic cavity. We show that the spin state strongly modulates the polarization of a reflected photon, and a single reflected photon coherently rotates the spin state. These strong spin-photon interactions open up a promising direction for solid-state implementations of high-speed quantum networks and on-chip quantum information processors using nanophotonic devices.

Entities:  

Year:  2016        PMID: 26854569     DOI: 10.1038/nnano.2015.334

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  29 in total

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  10 in total

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Journal:  Nat Commun       Date:  2018-01-09       Impact factor: 14.919

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6.  An ultra-high gain single-photon transistor in the microwave regime.

Authors:  Zhiling Wang; Zenghui Bao; Yan Li; Yukai Wu; Weizhou Cai; Weiting Wang; Xiyue Han; Jiahui Wang; Yipu Song; Luyan Sun; Hongyi Zhang; Luming Duan
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7.  Complete Coherent Control of a Quantum Dot Strongly Coupled to a Nanocavity.

Authors:  Constantin Dory; Kevin A Fischer; Kai Müller; Konstantinos G Lagoudakis; Tomas Sarmiento; Armand Rundquist; Jingyuan L Zhang; Yousif Kelaita; Jelena Vučković
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8.  Photonic Quantum Networks formed from NV(-) centers.

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9.  Heterogeneous integration for on-chip quantum photonic circuits with single quantum dot devices.

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10.  Strong coupling and induced transparency at room temperature with single quantum dots and gap plasmons.

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  10 in total

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