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Full Description
Edited by two recognised experts, this book in two volumes provides a comprehensive overview of integrated optics, from modelling to fabrication, materials to integration platforms, and characterization techniques to applications. The technology is explored in detail, and set in a broad context that addresses a range of current and potential future research and development trends.
Volume 1 begins with introductory chapters on the history of integrated optics technology, design tools, and modelling techniques. The next section of the book goes on to discuss the range of materials used for integrated optics, their deposition techniques, and their specific applications, including glasses, plasmonic nanostructures, SOI and SOS, and III-V and II-VI semiconductors.
Volume 2 addresses characterization techniques, integrated optical waveguides and devices. A range of applications are also discussed, including devices for sensing, telecommunications, optical amplifiers and lasers, and quantum computing.
The introductory chapters are intended to be of use to newcomers to the field, but its depth and breadth of coverage means that this book is also appropriate reading for early-career and senior researchers wishing to refresh their knowledge or keep up to date with recent developments in integrated optics.
Contents
Part I: Characterization techniques
Chapter 1: Optical characterization techniques
Chapter 2: Structural and surface-characterization techniques
Chapter 3: Integrated spectroscopy using THz time-domain spectroscopy and low-frequency Raman scattering
Part II: Integrated optical waveguides, devices, and applications
Chapter 4: Plasmonic nanostructures and waveguides
Chapter 5: Crystalline thin films for integrated laser applications
Chapter 6: Integration of optical microcavities
Chapter 7: Electric and magnetic sensors based on whispering gallery mode spherical resonators
Chapter 8: Nonlinear integrated optics in proton-exchanged lithium niobate waveguides and applications to classical and quantum optics
Chapter 9: Next-generation long-wavelength infrared detector arrays: competing technologies and modeling challenges
Chapter 10: Arrayed waveguide gratings for telecom and spectroscopic applications
Chapter 11: Integrated quantum photonics
Chapter 12: The optical reservoir computer: a new approach to a programmable integrated optics system based on an artificial neural network
