Opis: Wave Optics - Ayan Banerjee, Nirmalya Ghosh, Subhasish Dutta Gupta

Wave Optics: Basic Concepts and Contemporary Trends combines classical optics with some of the latest developments in the field to provide readers with an appreciation and understanding of advanced research topics. Requiring only a basic knowledge of electromagnetic theory and mathematics, this book: * Covers the fundamentals of wave optics, such as oscillations, scalar and vector waves, reflection and refraction, polarization, interference and diffraction, and rays and beams * Focuses on concepts related to advances in negative materials and superresolution, reflectionless potentials, plasmonics, spin-orbit interaction, optical tweezers, Pendry lensing, and more * Includes downloadable MATLAB(R) codes for specific research problems, offering readers a behind-the-scenes look at the computational practices as well as an opportunity to extend the research Drawing parallels with corresponding quantum problems whenever possible to broaden the horizon and outlook, Wave Optics: Basic Concepts and Contemporary Trends gives readers a taste of what is happening in modern optics today and shows why wave optics remains one of the most interesting and challenging areas of physics.Oscillations Sinusoidal oscillations Superposition of periodic motions Free oscillations Forced oscillations and resonance Coupled oscillations and normal modes Scalar and vector waves Plane waves Maxwell's equations and vector waves Wave propagation in dispersive media Phase and group velocities: Sub- and superluminal light Energy and momentum of electromagnetic waves Reflection and refraction Huygens-Fresnel principle Laws of reflection and refraction Fermat's principle and laws of reflection and refraction Fresnel formulas Consequences of Fresnel equations Elements of polarization, anisotropy and birefringence Basic types of polarization: Linear and elliptically polarized waves Stokes parameters and Jones vectors Anisotropy and birefringence Artificial birefringence Optical activity and rotation of plane of polarization Optical properties of dielectric, metal and engineered materials Linear response theory and dielectric response Kramers-Kronig relations Dispersion in metals: Drude model Planar composites and motivation for metal-dielectric structures Metal-dielectric composites Metamaterials and negative index materials More on polarized light State of polarization of light waves Interaction of polarized light with material media Experimental polarimetry and representative applications Interference and diffraction A general approach to interference Interferometers based on wavefront splitting Interferometers based on amplitude splitting Multiple beam interference Diffraction Scalar diffraction theory Rayleigh criterion Rays and beams Eikonal equation and rays Ray propagation through linear optical elements Beam characteristics Optical waves in stratified media Characteristics matrix approach Amplitude reflection, transmission coefficients and dispersion relation Periodic media with discrete and continuous variation of refractive index Quasi-periodic media and self-similarity Analogy between quantum and optical systems Optical reflectionless potentials and perfect transmission Critical coupling and coherent perfect absorption Nonreciprocity in reflection from stratified media Pulse transmission and reflection from a symmetric and asymmetric Fabry-Perot cavities Surface and guided modes Case study: A symmetric (2N + 1)-layer structure Excitation schemes for overcoming momentum mismatch Resonant tunnelling through gap plasmon guide and slow light Nonreciprocity in reflection from coupled microcavities with quantum wells Resonances of small particles Elements of Mie theory and the whispering gallery modes Typical example for a water droplet Broken spatial symmetry and its consequences Nanoparticles and quasi-static approximation Spin-orbit interaction of light Spin and orbital angular momentum of light Spin-orbit interaction (SOI) of light Geometric phase of light Spin-orbit interaction of light in inhomogeneous anisotropic medium Spin-orbit interaction of light in scattering Spin-orbit interaction of light in tight focusing of Gaussian beam Optical tweezers Basic theory Force and torque on a dipole Exerting controlled forces on particles using light: Optical trapping Dynamics of trapped particles Brownian motion in a harmonic potential: The optical trap Trap calibration and measurements Some uses of optical tweezers Pendry lensing and extraordinary transmission of light Near field vs. far field and resolution Angular spectrum decomposition and evanescent waves Negative index materials and Pendry lensing Imaging through an absorption compensated slab of metamaterial Extraordinary transmission Elements of complex numbers Complex number algebra Harmonic motion and complex representation Demonstration of the usefulness of complex representation Vector spherical harmonics MATLAB case studies Stratified media Reflectionless potentials Nonreciprocity

Szczegóły: Wave Optics - Ayan Banerjee, Nirmalya Ghosh, Subhasish Dutta Gupta

Tytuł: Wave Optics
Autor: Ayan Banerjee, Nirmalya Ghosh, Subhasish Dutta Gupta
Producent: Apple
ISBN: 9781482237733
Rok produkcji: 2015
Ilość stron: 381
Oprawa: Twarda

Recenzje: Wave Optics - Ayan Banerjee, Nirmalya Ghosh, Subhasish Dutta Gupta