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After laying the foundation by explaining the fundamental principles of light propagation and optical resonators, this book delves into the realm of implementing resonators through a fiber-based approach. It extensively explores fiber-based resonators, encompassing a comprehensive discussion spanning from their intricacies of design to their pivotal roles in advancing quantum optics experiments. Furthermore, it details the design techniques, meticulously explaining the latest developments within this dynamic field. There are vivid illustrations highlighting the various applications of resonators in experimental optics and cavity quantum electrodynamics. Also, a discourse is presented regarding the future potential of fiber-based resonators in quantum technology. The book serves as a valuable resource for individuals with an interest in optical resonators and their boundless possibilities.

Photonic crystals. --- Optoelectronic devices --- Optical fibers. --- Materials. --- Cavity CED. --- Fiber. --- Optical Resonators. --- Quantum Technology. --- Resonator Design. --- Technological Applications.

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Over recent decades, the increase in computational resources, coupled with the popularity of competitive quantum mechanics alternatives (particularly DFT), has promoted the widespread penetration of quantum mechanics calculations into a variety of fields targeting the reactivity of molecules. This book presents a selection of original research papers and review articles illustrating diverse applications of quantum mechanics in the study of problems involving molecules and their reactivity.

Research & information: general --- Pyrophosphate --- electronic structure --- mechanical properties --- optical properties --- first-principles calculations --- chemical reactivity theory --- HSAB principle --- information theory --- quantum mechanics --- regional complementarity rule --- virial theorem --- free radical scavengers --- antioxidants --- fluoxetine --- depressive disorder --- major --- oxidative stress --- DFT calculations --- reactive oxygen species --- porphyrins, density functional theory --- DFT --- surfaces --- self-assembly --- scanning tunneling microscopy --- dispersion --- nanostructures --- solid state --- condensed phase --- [NiFeSe] hydrogenase --- quantum mechanics (QM)/molecular mechanics (MM), geometry optimizations --- vibrational frequency analyses --- Fourier transform infrared (FTIR) frequencies --- Quercetin molecule --- conformational mobility --- hydroxyl group --- transition state --- concerted rotation of the hydroxyl groups --- quantum-chemical calculations --- quantum technology --- chemical kinetics --- reaction rate --- RRKM theory --- master equation --- coordination complexes --- donor-acceptor systems --- partial electronic flows --- phase-current relations --- subsystem phases --- Pyrophosphate --- electronic structure --- mechanical properties --- optical properties --- first-principles calculations --- chemical reactivity theory --- HSAB principle --- information theory --- quantum mechanics --- regional complementarity rule --- virial theorem --- free radical scavengers --- antioxidants --- fluoxetine --- depressive disorder --- major --- oxidative stress --- DFT calculations --- reactive oxygen species --- porphyrins, density functional theory --- DFT --- surfaces --- self-assembly --- scanning tunneling microscopy --- dispersion --- nanostructures --- solid state --- condensed phase --- [NiFeSe] hydrogenase --- quantum mechanics (QM)/molecular mechanics (MM), geometry optimizations --- vibrational frequency analyses --- Fourier transform infrared (FTIR) frequencies --- Quercetin molecule --- conformational mobility --- hydroxyl group --- transition state --- concerted rotation of the hydroxyl groups --- quantum-chemical calculations --- quantum technology --- chemical kinetics --- reaction rate --- RRKM theory --- master equation --- coordination complexes --- donor-acceptor systems --- partial electronic flows --- phase-current relations --- subsystem phases

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Over recent decades, the increase in computational resources, coupled with the popularity of competitive quantum mechanics alternatives (particularly DFT), has promoted the widespread penetration of quantum mechanics calculations into a variety of fields targeting the reactivity of molecules. This book presents a selection of original research papers and review articles illustrating diverse applications of quantum mechanics in the study of problems involving molecules and their reactivity.

Pyrophosphate --- electronic structure --- mechanical properties --- optical properties --- first-principles calculations --- chemical reactivity theory --- HSAB principle --- information theory --- quantum mechanics --- regional complementarity rule --- virial theorem --- free radical scavengers --- antioxidants --- fluoxetine --- depressive disorder --- major --- oxidative stress --- DFT calculations --- reactive oxygen species --- porphyrins, density functional theory --- DFT --- surfaces --- self-assembly --- scanning tunneling microscopy --- dispersion --- nanostructures --- solid state --- condensed phase --- [NiFeSe] hydrogenase --- quantum mechanics (QM)/molecular mechanics (MM), geometry optimizations --- vibrational frequency analyses --- Fourier transform infrared (FTIR) frequencies --- Quercetin molecule --- conformational mobility --- hydroxyl group --- transition state --- concerted rotation of the hydroxyl groups --- quantum-chemical calculations --- quantum technology --- chemical kinetics --- reaction rate --- RRKM theory --- master equation --- coordination complexes --- donor–acceptor systems --- partial electronic flows --- phase–current relations --- subsystem phases --- n/a --- donor-acceptor systems --- phase-current relations