Robert J A Francis-Jones, Robert J. A. Francis-Jones, Robert J.A. Francis-Jones - Active Multiplexing of Spectrally Engineered Heralded Single Photons in an Integrated Fibre Architecture

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Robert J A Francis-Jones, Robert J. A. Francis-Jones, Robert J.A. Francis-Jones

Active Multiplexing of Spectrally Engineered Heralded Single Photons in an Integrated Fibre Architecture

English · Hardback

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Description

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This clearly written thesis discusses the development of a highly innovative single-photon source that uses active optical switching, known as multiplexing, to increase the probability of delivering photons into a single mode. Improving single-photon sources is critical in advancing the state of the art in photonic quantum technologies for information processing and communications.

List of contents

Introduction.- Photon Pair Generation via Four-Wave Mixing in Photonic Crystal Fibres.- Numerical Modelling of Multiplexed Photon Pair Sources.- Design, Fabrication, and Characterisation of PCFs for Photon Pair Generation.- Construction of an Integrated Fibre Source of Heralded Single Photons.- Characterisation of a Multiplexed Photon Pair Source.- Conclusion.

About the author

Dr Robert Francis-Jones received his PhD from the University of Bath in 2016 for his work on multiplexing high-purity heralded single photon sources under the supervision of Dr Peter Mosley, for which he received the Institute of Physics Quantum Electronics and Photonics Doctoral Thesis Prize 2017.

His main research areas include the design and fabrication of photonic crystal fibres (PCF) for photon pair generation in PCF for use in heralded single photon sources, and quantum frequency translation of single photons from the visible to the infrared.  His other research interests include, numerical modelling of nonlinear optical processes such as four-wave mixing,  the development of field programmable gate array designs for photon counting and fast feed forward optical switching schemes and the development of antiresonant hollowcore optical fibres for quantum optics applications.

Summary

Nominated as an outstanding PhD thesis by the University of Bath, UK
Describes an important step towards achieving high performance single-photon sources
Impacts on technologies such as all-optical quantum computing and cryptography

Product details

Authors Robert J A Francis-Jones, Robert J. A. Francis-Jones, Robert J.A. Francis-Jones
Publisher Springer, Berlin
 
Languages English
Product format Hardback
Released 01.01.2017
 
EAN 9783319641874
ISBN 978-3-31-964187-4
No. of pages 147
Dimensions 163 mm x 16 mm x 242 mm
Weight 374 g
Illustrations XXIII, 147 p. 80 illus., 77 illus. in color.
Series Springer Theses
Springer Theses
Subjects Natural sciences, medicine, IT, technology > Physics, astronomy > Theoretical physics

Laser, B, Lasers, Quantum Optics, Optical and Electronic Materials, Quantum physics (quantum mechanics & quantum field theory), Physics and Astronomy, Optical physics, Electronic materials, Electronic devices & materials, Optical Materials, Photonics, Applied optics, Optics, Lasers, Photonics, Optical Devices

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