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This textbook provides comprehensive coverage of the fundamentals of integrated quantum photonics (IQP) and its key applications. While there are books available in the fields of quantum, integrated, and nonlinear optics, there is no single book which provides extensive coverage of the fundamentals in a unified context for understanding the field of IQP and its applicability in emerging research and industrial areas. Based on the author s classroom-tested lecture courses and tutorials delivered around the world, the book has a pedagogical approach with concepts derived from basic principles, and enhanced with exercises to hone both the reader s fundamental understanding and ability to apply the core concepts. As IQP is expected to play a significant role in the future of quantum information science and technology, this book will provide a much needed source of fundamental and practical knowledge for the novice or advanced reader alike. This textbook is ideal for a taught course in integrated quantum photonics at the upper undergraduate or beginning graduate level. It can also be used as a reference for more seasoned researchers and as a self-study resource for industry researchers looking to upgrade their skills and knowledge.
Inhaltsverzeichnis
1 Introduction.- 2 Quick Recall of Basic Electromagnetics.- 3 Quantum Mechanics.- 4 Modes in Optical Waveguides.- 5 The Optical Directional Coupler.- 6 Electro Optic Effect in Optical Waveguides.- 7 Waveguide Y splitters and Mach-Zehnder Interferometer.- 8 Optical Ring Resonators and Arrayed Waveguide Grating.- 9 Periodic Interactions in Waveguides.- 10 Nonlinear Optical Polarization.- 11 Second Harmonic Generation.- 12 Sum and Difference Frequency Generation.- 13 Optical Parametric Amplification.- 14 Quantization of the Electromagnetic Field and the Concept of Photon.- 15 Single Mode Photon States.- 16 Multimode Photon States.- 17 Entangled Photon States.- 18 Squeezed Photon States.- 19 Beam Splitter.- 20 Optical Homodyning.- 21 Schrödinger, Heisenberg and Interaction Pictures.- 22 Quantum Treatment of Parametric Processes.- 23 Entangled Photon Pair Generation.- 24 Some Interesting Experiments in Quantum Photonics.- 25 Some Applications of Quantum Photonic Technology.
Über den Autor / die Autorin
Prof. Thyagarajan is a multicultural educator with more than four decades of experience as a Professor of Physics at the Indian Institute of Technology, Delhi (IITD) and then at Bennett University (Times Media Group). He has played multiple roles across teaching, research, and administration, as a professor, Head of the Department and the Officiating Director (IITD). Prof. Thyagarajan has germinated novel ideas and demonstrated high impact scientific results in the fields of fiber optics, optical telecommunication, quantum optics and integrated optoelectronics, in projects funded both by federal (Asia, Europe, USA) and commercial sources. During his career, he has held numerous prestigious visiting scientist positions across the globe including in USA, France, Canada, Japan, Hong Kong, and Poland, and has been decorated by multiple governments (India, France, USA) and industrial organizations for his outstanding contributions to science and education. He is a Fellow of the Optical Society of America and the Indian National Academy of Engineering. He is also a recipient of the Officier dans L’ordre des Palmes académiques from the French Government. He has held key positions in national and international federal committees overseeing funding allocations and scientific work in the areas of quantum optics, optical telecommunication, and integrated photonics. With more than 175 research papers, several patents, authorship of 10 internationally acclaimed textbooks, and creating 73 nationally acclaimed physics education videos on Quantum Electronics and Electromagnetics to his name, Prof. Thyagarajan strives to bridge cutting-edge scientific research and STEM education to motivate future generations of scientists to pursue their passion in science and technology.
Zusammenfassung
This textbook provides comprehensive coverage of the fundamentals of integrated quantum photonics (IQP) and its key applications. While there are books available in the fields of quantum, integrated, and nonlinear optics, there is no single book which provides extensive coverage of the fundamentals in a unified context for understanding the field of IQP and its applicability in emerging research and industrial areas. Based on the author’s classroom-tested lecture courses and tutorials delivered around the world, the book has a pedagogical approach with concepts derived from basic principles, and enhanced with exercises to hone both the reader’s fundamental understanding and ability to apply the core concepts. As IQP is expected to play a significant role in the future of quantum information science and technology, this book will provide a much needed source of fundamental and practical knowledge for the novice or advanced reader alike. This textbook is ideal for a taught course in integrated quantum photonics at the upper undergraduate or beginning graduate level. It can also be used as a reference for more seasoned researchers and as a self-study resource for industry researchers looking to upgrade their skills and knowledge.
