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

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 sugges...

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Published inNature nanotechnology Vol. 11; no. 6; pp. 539 - 544
Main Authors Sun, Shuo, Kim, Hyochul, Solomon, Glenn S., Waks, Edo
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.06.2016
Nature Publishing Group
Subjects
639/624/400/3925
639/624/400/482
639/766/483/3925
639/766/483/481
639/925/927/1021
Devices
Embedded structures
High speed
Information processing
Materials Science
Nanostructure
Nanotechnology
Nanotechnology and Microengineering
Networks
Photons
Proposals
Quantum computing
Quantum phenomena
Solid state devices
Switches
Switching theory
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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. Placing a single solid-state spin in an optical nanocavity results in a switch that operates at the fundamental quantum limit, where the spin modulates the polarization of a photon and a single photon flips the spin state.
AbstractList 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.
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. Placing a single solid-state spin in an optical nanocavity results in a switch that operates at the fundamental quantum limit, where the spin modulates the polarization of a photon and a single photon flips the spin state.
Author Sun, Shuo
Solomon, Glenn S.
Kim, Hyochul
Waks, Edo
Author_xml – sequence: 1
  givenname: Shuo
  orcidid: 0000-0003-4171-0466
  surname: Sun
  fullname: Sun, Shuo
  organization: Department of Electrical and Computer Engineering, Institute for Research in Electronics and Applied Physics, Joint Quantum Institute, University of Maryland
– sequence: 2
  givenname: Hyochul
  surname: Kim
  fullname: Kim, Hyochul
  organization: Department of Electrical and Computer Engineering, Institute for Research in Electronics and Applied Physics, Joint Quantum Institute, University of Maryland
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  givenname: Glenn S.
  surname: Solomon
  fullname: Solomon, Glenn S.
  organization: Joint Quantum Institute, National Institute of Standards and Technology and University of Maryland
– sequence: 4
  givenname: Edo
  surname: Waks
  fullname: Waks, Edo
  email: edowaks@umd.edu
  organization: Department of Electrical and Computer Engineering, Institute for Research in Electronics and Applied Physics, Joint Quantum Institute, University of Maryland
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26854569$$D View this record in MEDLINE/PubMed
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Snippet Interactions between single spins and photons are essential for quantum networks and distributed quantum computation. Achieving spin–photon interactions in a...
Interactions between single spins and photons are essential for quantum networks and distributed quantum computation. Achieving spin-photon interactions in a...
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SubjectTerms 639/624/400/3925
639/624/400/482
639/766/483/3925
639/766/483/481
639/925/927/1021
Devices
Embedded structures
High speed
Information processing
Materials Science
Nanostructure
Nanotechnology
Nanotechnology and Microengineering
Networks
Photons
Proposals
Quantum computing
Quantum phenomena
Solid state devices
Switches
Switching theory
Title A quantum phase switch between a single solid-state spin and a photon
URI https://link.springer.com/article/10.1038/nnano.2015.334
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