Universal programmable photonic architecture for quantum information processing

Ben Bartlett and Shanhui Fan
Phys. Rev. A 101, 042319 – Published 20 April 2020
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  • INTRODUCTION
  • PHOTONIC QUANTUM PROGRAMMABLE GATE…
  • EXACT QUANTUM STATE AND OPERATOR…
  • GRADIENT-BASED CIRCUIT OPTIMIZATION
  • CONCLUSION
  • ACKNOWLEDGMENTS
  • APPENDICES
    • Supplemental Material
    References

    Abstract

    We present a photonic integrated circuit architecture for a quantum programmable gate array (QPGA) capable of preparing arbitrary quantum states and operators. The architecture consists of a lattice of phase-modulated Mach-Zehnder interferometers, which perform rotations on path-encoded photonic qubits, and embedded quantum emitters, which use a two-photon scattering process to implement a deterministic controlled-σz operation between adjacent qubits. By appropriately setting phase shifts within the lattice, the device can be programmed to implement any quantum circuit without hardware modifications. We provide algorithms for exactly preparing arbitrary quantum states and operators on the device, and we show that gradient-based optimization can train a simulated QPGA to automatically implement highly compact approximations to important quantum circuits with near-unity fidelity.

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    • Received 22 October 2019
    • Accepted 10 March 2020

    DOI:https://doi.org/10.1103/PhysRevA.101.042319

    ©2020 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Integrated opticsMachine learningNanophotonicsOptical quantum information processingQuantum information architectures & platformsQuantum optics
    Quantum Information, Science & TechnologyAtomic, Molecular & Optical

    Authors & Affiliations

    Ben Bartlett1,* and Shanhui Fan2,†

    • 1Department of Applied Physics, Stanford University, Stanford, California 94305, USA
    • 2Department of Electrical Engineering, Stanford University, Stanford, California 94305, USA

    • *benbartlett@stanford.edu
    • shanhui@stanford.edu

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    Issue

    Vol. 101, Iss. 4 — April 2020

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