Overview

Photonic Quantum Technologies Brings together top-level research results to enable the development of practical quantum devices In Photonic Quantum Technologies: Science and Applications, the editor Mohamed Benyoucef and a team of distinguished scientists from different disciplines deliver an authoritative, one-stop overview of up-to-date research on various quantum systems. This unique book reviews the state-of-the-art research in photonic quantum technologies and bridges the fundamentals of the field with applications to provide readers from academia and industry, in one-location resource, with cutting-edge knowledge they need to have to understand and develop practical quantum systems for application in e.g., secure quantum communication, quantum metrology, and quantum computing. The book also addresses fundamental and engineering challenges en route to workable quantum devices and ways to circumvent or overcome them. Readers will also find: A thorough introduction to the fundamentals of quantum technologies, including discussions of the second quantum revolution (by Nobel Laureate Alain Aspect), solid-state quantum optics, and non-classical light and quantum entanglement Comprehensive explorations of emerging quantum technologies and their practical applications, including quantum repeaters, satellite-based quantum communication, quantum networks, silicon quantum photonics, integrated quantum systems, and future vision Practical discussions of quantum technologies with artificial atoms, color centers, 2D materials, molecules, atoms, ions, and optical clocks Perfect for molecular and solid-state physicists, Photonic Quantum Technologies: Science and Applications will also benefit industrial and academic researchers in photonics and quantum optics, graduate students in the field; engineers, chemists, and computer and material scientists.

Full Product Details

Author:   Mohamed Benyoucef (University of Kassel, Germany)
Publisher:   Wiley-VCH Verlag GmbH
Imprint:   Blackwell Verlag GmbH
Dimensions:   Width: 17.00cm , Height: 3.00cm , Length: 24.40cm
Weight:   1.361kg
ISBN:  

9783527414123

ISBN 10:   3527414126
Pages:   816
Publication Date:   07 June 2023
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

Introduction to Quantum Photonics PART I: FUNDAMENTALS OF QUANTUM TECHNOLOGIES The second quantum revolution: from basic concepts to quantum technologies Solid state quantum emitters Single photon sources for multi-photon applications Quantum Key Distribution Protocols From basic science to technological development: the case for two avenues Quantum Networks in Space PART II: ATOMS, IONS, AND MOLECULES: FROM EXPERIMENTAL TECHNIQUES TO RECENT PROGRESS Fluorescence spectroscopy in planar dielectric and metallic systems Single Trapped Neutral Atoms in Optical Lattices Long Distance Entanglement of Atomic Qubits Collective Light emission of ion crystals in correlated Dicke states Single Molecule Magnets Spin Devices Molecular-ion quantum technologies Optical atomic clocks PART III: SPIN QUBITS AND QUANTUM MEMORIES: FROM SPIN PROPERTIES TO PHYSICAL REALIZATIONS Coherent Spin Dynamics of Colloidal Nanocrystals Relaxation of Electron and Hole Spin Qubits in III-V Quantum Dots Ensemble-Based Quantum Memory: Principle, Advance, and Application PART IV: SOLID-STATE AND VAN DER WAALS MATERIAL PLATFORMS: FROM SINGLE QUANTUM EMITTERS TO HYBRID INTEGRATION Telecom wavelengths InP-based quantum dots for quantum communication Quantum Optics with Solid-State Colour Centres Quantum photonics with 2D semiconductors Nano-opto-electro-mechanical systems for integrated quantum photonics Silicon Quantum Photonics Platform PART V: EMERGING QUANTUM TECHNOLOGIES: CHALLENGES AND POTENTIAL APPLICATIONS Photonic realization of qubit quantum computing Fiber-Based Quantum Repeaters Long-distance satellite-based quantum communication Quantum Communication Networks for 6G

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Author Information

Mohamed Benyoucef is a Professor of Physics at the University of Kassel. He received his PhD degree from the University of Bristol (United Kingdom), and his habilitation from the University of Kassel (Germany). His research focuses on quantum dots, quantum optics and nanophononics, including the development of novel and advanced quantum nanoarchitectures; the integration of III-V semiconductor light sources into silicon, fabrication, and characterization of nano-/micro-cavities in combination with integrated quantum emitters; the study of molecule complexes and their integration into solid-state platforms as hybrid quantum systems for quantum technology applications.

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