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  • Photonic quantum information processing: A concise review

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    Author(s)
    Slussarenko, Sergei
    Pryde, Geoff J
    Griffith University Author(s)
    Slussarenko, Sergei
    Pryde, Geoff
    Year published
    2019
    Metadata
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    Abstract
    Photons have been a flagship system for studying quantum mechanics, advancing quantum information science, and developing quantum technologies. Quantum entanglement, teleportation, quantum key distribution, and early quantum computing demonstrations were pioneered in this technology because photons represent a naturally mobile and low-noise system with quantum-limited detection readily available. The quantum states of individual photons can be manipulated with very high precision using interferometry, an experimental staple that has been under continuous development since the 19th century. The complexity of photonic quantum ...
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    Photons have been a flagship system for studying quantum mechanics, advancing quantum information science, and developing quantum technologies. Quantum entanglement, teleportation, quantum key distribution, and early quantum computing demonstrations were pioneered in this technology because photons represent a naturally mobile and low-noise system with quantum-limited detection readily available. The quantum states of individual photons can be manipulated with very high precision using interferometry, an experimental staple that has been under continuous development since the 19th century. The complexity of photonic quantum computing devices and protocol realizations has raced ahead as both underlying technologies and theoretical schemes have continued to develop. Today, photonic quantum computing represents an exciting path to medium- and large-scale processing. It promises to put aside its reputation for requiring excessive resource overheads due to inefficient two-qubit gates. Instead, the ability to generate large numbers of photons—and the development of integrated platforms, improved sources and detectors, novel noise-tolerant theoretical approaches, and more—have solidified it as a leading contender for both quantum information processing and quantum networking. Our concise review provides a flyover of some key aspects of the field, with a focus on experiment. Apart from being a short and accessible introduction, its many references to in-depth articles and longer specialist reviews serve as a launching point for deeper study of the field. I. INTRODUCTION
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    Journal Title
    Applied Physics Reviews
    Volume
    6
    Issue
    4
    DOI
    https://doi.org/10.1063/1.5115814
    Copyright Statement
    © 2019 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
    Subject
    Physical sciences
    Condensed matter physics
    Macromolecular and materials chemistry
    Materials engineering
    Science & Technology
    Physics, Applied
    Physics
    NOISELESS LINEAR AMPLIFICATION
    Publication URI
    http://hdl.handle.net/10072/393296
    Collection
    • Journal articles

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