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Essential classical mechanics for device physics
Údaje o názvu Essential classical mechanics for device physics / A.F.J. Levi. [elektronický zdroj] Nakladatel San Rafael [California] (40 Oak Drive, San Rafael, CA, 94903, USA) : Morgan & Claypool Publishers, [2016] Distributor Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2016] Fyz.popis 1 online resource (various pagings) : illustrations (some color). ISBN 9781681744131 (online) 9781681744155 mobi Edice [IOP release 3] IOP concise physics, ISSN 2053-2571 Poznámka "Version: 20160901"--Title page verso. "A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso. Poznámky o skryté bibliografii a rejstřících Includes bibliographical references. Úplný obsah Preface -- 1 Concepts in classical mechanics -- 1.1. The quantum-classical boundary -- 1.2. Separation of scales and constraints -- 1.3. Newtonian mechanics -- 1.4. The one-dimensional simple harmonic oscillator -- 1.5. Generalization -- 1.6. Increasing complexity to discover new phenomena Poznámka o obsahu 2. Lattice vibrations -- 2.1. Harmonic oscillation of a diatomic molecule -- 2.2. Beyond harmonic oscillation of a diatomic molecule -- 2.3. The dispersion relation and symmetry -- 2.4. Lattice vibrations in semiconductors. 3. Driven oscillation -- 3.1. The damped oscillator subject to an external harmonic force -- 3.2. Coupled oscillator normal modes and beats -- 3.3. Coupled damped oscillator. 4. Transient dynamics of driven oscillation -- 4.1. The Runge-Kutta method -- 4.2. Phasor diagram of a harmonically driven damped oscillator -- 4.3. Control of a harmonically driven damped oscillator -- 4.4. Transient dynamics of a harmonically driven damped non-harmonic oscillator -- 4.5. Control of systems with chaotic motion -- 4.6. Noise -- 4.7. Diffusion and mobility. 5. The Lorentz oscillator model -- 5.1. Isotropic materials with a linear local response -- 5.2. Electric susceptibility of an insulating dielectric -- 5.3. The Kramers-Kronig relation -- 5.4. The transverse dielectric permittivity function -- 5.5. Propagation of electromagnetic waves in a dielectric medium -- 5.6. An electromagnetic plane-wave at normal incidence -- 5.7. Reflectance -- 5.8. Normal and anomalous dispersion -- 5.9. Permittivity due to longitudinal polar-optic phonons -- 5.10. The loss function. 6. The Drude model -- 6.1. DC conductivity -- 6.2. AC conductivity -- 6.3. Kinetic inductance -- 6.4. Permittivity of metal -- 6.5. Physical origin of plasma frequency -- 6.6. An electromagnetic field interacting with a metal -- 6.7. Drude dispersion of electromagnetic radiation -- 6.8. Changing the properties of a metal -- Appendices -- A. Physical values A-1 -- B. Maxwell's equations. Poznámky k dostupnosti Přístup pouze pro oprávněné uživatele Poznámky Způsob přístupu: World Wide Web.. Požadavky na systém: Adobe Acrobat Reader. Dal.odpovědnost Morgan & Claypool Publishers, Institute of Physics (Great Britain), Předmět.hesla Semiconductors - Design and construction. * Electronic Devices and Materials. * Materials Science. * Nanotechnology. * TECHNOLOGY & ENGINEERING / Electronics / Microelectronics. Forma, žánr elektronické knihy electronic books Země vyd. Kalifornie Jazyk dok. angličtina Druh dok. Elektronické knihy URL Plný text pro studenty a zaměstnance UPOL 
kniha
Continued advances in the precision manufacturing of new structures at the nanometer scale have provided unique opportunities for device physics. This book sets out to summarize those elements of classical mechanics most applicable for scientists and engineers studying device physics. Supplementary MATLAB{reg} materials are available for all figures generated numerically.
Preface -- 1 Concepts in classical mechanics -- 1.1. The quantum-classical boundary -- 1.2. Separation of scales and constraints -- 1.3. Newtonian mechanics -- 1.4. The one-dimensional simple harmonic oscillator -- 1.5. Generalization -- 1.6. Increasing complexity to discover new phenomena2. Lattice vibrations -- 2.1. Harmonic oscillation of a diatomic molecule -- 2.2. Beyond harmonic oscillation of a diatomic molecule -- 2.3. The dispersion relation and symmetry -- 2.4. Lattice vibrations in semiconductors3. Driven oscillation -- 3.1. The damped oscillator subject to an external harmonic force -- 3.2. Coupled oscillator normal modes and beats -- 3.3. Coupled damped oscillator4. Transient dynamics of driven oscillation -- 4.1. The Runge-Kutta method -- 4.2. Phasor diagram of a harmonically driven damped oscillator -- 4.3. Control of a harmonically driven damped oscillator -- 4.4. Transient dynamics of a harmonically driven damped non-harmonic oscillator -- 4.5. Control of systems with chaotic motion -- 4.6. Noise -- 4.7. Diffusion and mobility5. The Lorentz oscillator model -- 5.1. Isotropic materials with a linear local response -- 5.2. Electric susceptibility of an insulating dielectric -- 5.3. The Kramers-Kronig relation -- 5.4. The transverse dielectric permittivity function -- 5.5. Propagation of electromagnetic waves in a dielectric medium -- 5.6. An electromagnetic plane-wave at normal incidence -- 5.7. Reflectance -- 5.8. Normal and anomalous dispersion -- 5.9. Permittivity due to longitudinal polar-optic phonons -- 5.10. The loss function6. The Drude model -- 6.1. DC conductivity -- 6.2. AC conductivity -- 6.3. Kinetic inductance -- 6.4. Permittivity of metal -- 6.5. Physical origin of plasma frequency -- 6.6. An electromagnetic field interacting with a metal -- 6.7. Drude dispersion of electromagnetic radiation -- 6.8. Changing the properties of a metal -- Appendices -- A. Physical values A-1 -- B. Maxwell's equations.
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