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Multi-Photon Quantum Information Science and Technology in Integrated Optics

  • Book
  • © 2013

Overview

Authors:
  1. Jonathan C.F. Matthews

    1. , Centre for Quantum Photonics, University of Bristol, Bristol, United Kingdom

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  • Describes a completely new architecture for quantum photonic devices
  • Represents an important advance for all-optical quantum hybrid technologies
  • Nominated as an outstanding contribution by the University of Bristol
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (9 chapters)

  1. Front Matter

    Pages i-xvii
    Download chapter PDF

  2. Introduction

    • Jonathan C. F. Matthews
    Pages 1-9

  3. Background and Methods

    • Jonathan C. F. Matthews
    Pages 11-28

  4. The Hong–Ou–Mandel Effect in a Waveguide Directional Coupler

    • Jonathan C. F. Matthews
    Pages 29-40

  5. Multi Directional-Coupler Circuit for Quantum Logic

    • Jonathan C. F. Matthews
    Pages 41-50

  6. Quantum Interference in a Waveguide Interferometer

    • Jonathan C. F. Matthews
    Pages 51-67

  7. Heralded NOON State Generation in Waveguide

    • Jonathan C. F. Matthews
    Pages 69-79

  8. Two Photon Quantum Walks

    • Jonathan C. F. Matthews
    Pages 81-94

  9. Simulating Arbitrary Quantum Statistics with Entangled Photons

    • Jonathan C. F. Matthews
    Pages 95-111

  10. Conclusions and Outlook

    • Jonathan C. F. Matthews
    Pages 113-117
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Keywords

About this book

Photons are an attractive option for testing fundamental quantum physics and developing new quantum-enhanced technology, including highly advanced computers and simulators, as well as precision sensing beyond shot-noise. Traditionally, bulk optical components have been bolted onto optical benches to realize metre-scale quantum circuits. However this approach is ultimately proving unwieldy for increasing the complexity and for scaling up to practical quantum technologies based on photons.

The work presented here demonstrates a series of quantum photonic devices based on waveguide circuits embedded in miniature monolithic chips. This represents a paradigm shift in the underlying architecture of quantum optics and provides key building blocks for all-optical and hybrid quantum technologies.

Authors and Affiliations

  • , Centre for Quantum Photonics, University of Bristol, Bristol, United Kingdom

    Jonathan C.F. Matthews

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