Universal linear optics

  title={Universal linear optics},
  author={J. Carolan and C. Harrold and C. Sparrow and E. Martin-Lopez and N. J. Russell and J. Silverstone and Peter J Shadbolt and N. Matsuda and M. Oguma and M. Itoh and G. D. Marshall and M. Thompson and J. Matthews and T. Hashimoto and J. O'Brien and A. Laing},
  pages={711 - 716}
  • J. Carolan, C. Harrold, +13 authors A. Laing
  • Published 2015
  • Mathematics, Medicine, Physics
  • Science
  • Complex quantum optical circuitry Encoding and manipulating information in the states of single photons provides a potential platform for quantum computing and communication. Carolan et al. developed a reconfigurable integrated waveguide device fabricated in a glass chip (see the Perspective by Rohde and Dowling). The device allowed for universal linear optics transformations on six wave-guides using 15 integrated Mach-Zehnder interferometers, each of which was individually programmable… CONTINUE READING
    Integrated-optics heralded controlled-NOT gate for polarization-encoded qubits
    • 19
    • PDF
    Integrated photonic platform for quantum information with continuous variables
    • 44
    • PDF
    Nonlinear integrated quantum electro-optic circuits
    • 17
    • PDF
    Generation and sampling of quantum states of light in a silicon chip
    • 44
    • PDF
    Large-scale quantum photonic circuits in silicon
    • 66
    • Highly Influenced
    • PDF
    Single-photon manipulation in Nanophotonic Circuits


    Publications referenced by this paper.
    Photonic quantum technologies
    • 877
    • PDF
    Integrated photonic quantum gates for polarization qubits
    • 213
    • PDF
    Resource-efficient linear optical quantum computation.
    • 398
    • PDF
    Laser written waveguide photonic quantum circuits.
    • 239
    • PDF
    Photonic Boson Sampling in a Tunable Circuit
    • 282
    • PDF