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Full Description
This book bridges the fields of nano-photonics or nano-mechanics and provides the first in-depth treatment of optomechanics, from fundamental principles to the most recent applications and progress in nano-scale. Written by a reputable and well-published team of experts in the field, the book also covers the numerous applications in photonics, optical engineering and devices, integrated optics, quantum optics and mechanics, nano-optics, nano-photonics, and nano-mechanics, and sensing.
Contents
INTRODUCTION OPTICAL FORCES: FROM RADIATION PRESSURE TO GRADIENT FORCES Radiation Pressure - A Historical Overview Optical Force in Micro-Toroidal Oscillators Optical Tweezers and its Extension to On-Chip Technology Analytical and Quantum Description of Optical Force A Unified Theory of Optical Force INTEGRATED PHOTONICS Silicon Photonics (SOI) and Device Fabrication Waveguide Theory Silicon Photonic Oscillators Photonic Crystals and Photonic Crystal Waveguides FDTD Theory and Effective Refractive Index Model Finite Element Modeling of Optical Mode Analytical Modeling of Evanescent Fields Critical Coupling in Coupled Mode Theory Dissipation in Optical Oscillators and Quality Factor Optical Splitters, Combiner, Multi-Mode Interference Devices (MMIs) and Directional Couplers NANOELECTROMECHANICAL SYSTEM (NEMS) The Scaling of NEMS NEMS Materials and NEMS Device Fabrication Beam Theory of NEMS: Resonant Frequency, Spring Constant and Effective Mass Finite Element Modeling of NEMS Actuation of NEMS NEMS Sensing Dissipation in NEMS and Mechanical Quality Factor High Frequency NEMS Devices and Oscillators INTEFEROMETRIC DETECTION OF MOTION Michelson Interferometers in Free Space Mach-Zehnder Interferometers Classical Noise Sources in Interferometric Motion Sensors Quantum Noise Sources in Optical Interferometers INTEGRATION OF NANOPHOTONICS AND NEMS Fiber to Chip Coupling and Optical I/O Coupling Optics and Mechanic - MMI Design - Photonic MMIs Interferometric Detection of Nanomechanical Motion Non-Interferometric Detection of Nanomechanical Motion The Ultimate Detection Limit of Optical Transduction PHYSICS OF OPTOMECHANICAL SYSTEMS Optomechanical Coupling Bipolar Optical Forces Casimir Forces - The Force of Virtual Photons Numerical Simulation of Optical Force The Optical Spring Effect Optomechanical Cooling Optomechanical Amplification The Drive for High Optical Q and Mechanical Q The Scaling of Optomechanical Systems Resolved Side Band Cooling Reactive Cooling X2 Detectors Feedback Cooling The Mechanical Quantum Ground State - What is to be Expected NONLINEAR PROCESSES IN OPTOMECHANICAL SYSTEMS Mechanical Nonlinearities Mechanical Induced Optical Nonlinearity Mode Coupling: Crossing and Anti-Crossing Nonlinear Coupling of Mechanical Modes OPTOMECHANICAL SIGNAL PROCESSING Mechanical Tuning of Photonic Components Wavelength Routing with Optomechanical Devices Radio Frequency Photonic NEMS CONCLUSION AND PERSPECTIVES
