Polarized Light
Autor Dennis H. Goldsteinen Limba Engleză Hardback – 16 dec 2010
Links Historical Developments to Current Applications and Future Innovations
This book starts with a general description of light and continues with a complete exploration of polarized light, including how it is produced and its practical applications. The author incorporates basic topics, such as polarization by refraction and reflection, polarization elements, anisotropic materials, polarization formalisms (Mueller–Stokes and Jones) and associated mathematics, and polarimetry, or the science of polarization measurement.
New to the Third Edition:
- A new introductory chapter
- Chapters on: polarized light in nature, and form birefringence
- A review of the history of polarized light, and a chapter on the interference laws of Fresnel and Arago—both completely re-written
- A new appendix on conventions used in polarized light
- New graphics, and black-and-white photos and color plates
Building on the solid foundation of the first two editions, this book reorganizes and updates existing material on fundamentals, theory, polarimetry, and applications. It adds new chapters, graphics, and color photos, as well as a new appendix on conventions used in polarized light. As a result, the author has re-established this book’s lofty status in the pantheon of literature on this important field.
Preț: 1417.42 lei
Preț vechi: 1906.46 lei
-26% Nou
Puncte Express: 2126
Preț estimativ în valută:
271.24€ • 285.28$ • 226.64£
271.24€ • 285.28$ • 226.64£
Carte tipărită la comandă
Livrare economică 08-22 ianuarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9781439830406
ISBN-10: 1439830401
Pagini: 808
Ilustrații: 16 page color insert to follow 394; 3600-3800 equations; 16 Tables, black and white; 306 Illustrations, black and white
Dimensiuni: 178 x 254 x 46 mm
Greutate: 1.63 kg
Ediția:Revizuită
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1439830401
Pagini: 808
Ilustrații: 16 page color insert to follow 394; 3600-3800 equations; 16 Tables, black and white; 306 Illustrations, black and white
Dimensiuni: 178 x 254 x 46 mm
Greutate: 1.63 kg
Ediția:Revizuită
Editura: CRC Press
Colecția CRC Press
V-ar putea interesa
-
Recent Advances in Laser Processing of MaterialsJacques Perriere-27%Preț: 746.41 lei1022.49 lei -
-23%Preț: 740.33 lei961.47 lei -
Laser Control of Atoms and MoleculesVladilen Letokhov-19%Preț: 363.07 lei447.78 lei -
Beam: The Race to Make the LaserJeff Hecht-10%Preț: 265.11 lei295.83 lei -
Introduction to Modern Digital Holography: With MatlabTing-Chung Poon-11%Preț: 610.95 lei686.46 lei -
-25%Preț: 1026.31 lei1376.80 lei -
Principles of LasersOrazio Svelto-15%Preț: 652.72 lei767.91 lei -
-22%Preț: 1019.85 lei1315.67 lei -
Physics of Solid State Lasers: Fundamentals and ApplicationsV V Antsiferov-23%Preț: 583.37 lei757.62 lei -
Fundamentals of Laser DynamicsYakov Israilevich Khanin-23%Preț: 760.71 lei987.95 lei -
Laser Cooling of SolidsSergei V Petrushkin-23%Preț: 844.33 lei1096.53 lei -
-26%Preț: 1011.63 lei1368.14 lei -
-23%Preț: 349.51 lei453.78 lei -
Applied Photometry, Radiometry, and Measurements of Optical LossesMichael Bukshtab-24%Preț: 969.95 lei1276.24 lei -
Non-Stationary Electromagnetics: An Integral Equations ApproachAlexander Nerukh-26%Preț: 789.64 lei1062.06 lei
Public țintă
ProfessionalCuprins
Part I: Introduction to Polarized Light
Introduction. Polarization in the Natural Environment. Wave Equation in Classical Optics. The Polarization Ellipse. Stokes Polarization Parameters. Mueller Matrices for Polarizing Components. Fresnel Equations: Derivation and Mueller Matrix Formulation. Mathematics of the Mueller Matrix. Mueller Matrices for Dielectric Plates. The Jones Matrix Formalism. The Poincare Sphere. Fresnel–Arago Interference Laws.
Part II: Polarimetry
Introduction. Methods of Measuring Stokes Polarization Parameters. Measurement of the Characteristics of Polarizing Elements. Stokes Polarimetry. Mueller Matrix Polarimetry. Techniques in Imaging Polarimetry. Channeled Polarimetry for Snapshot Measurements.
Part III: Applications
Introduction. Crystal Optics. Optics of Metals. Polarization Optical Elements. Ellipsometry. Form Birefringence and Meanderline Retarders.
Part IV: Classical and Quantum Theory of Radiation by Accelerating Charges
Introduction to Classical and Quantum Theory of Radiation by Accelerating Charges. Maxwell’s Equations for Electromagnetic Fields. The Classical Radiation Field. Radiation Emitted by Accelerating Charges. Radiation of an Accelerating Charge in the Electromagnetic Field. The Classical Zeeman Effect. Further Applications of the Classical Radiation Theory. The Stokes Parameters and Mueller Matrices for Optical Activity and Faraday Rotation. Stokes Parameters for Quantum Systems.
Appendices
Introduction. Polarization in the Natural Environment. Wave Equation in Classical Optics. The Polarization Ellipse. Stokes Polarization Parameters. Mueller Matrices for Polarizing Components. Fresnel Equations: Derivation and Mueller Matrix Formulation. Mathematics of the Mueller Matrix. Mueller Matrices for Dielectric Plates. The Jones Matrix Formalism. The Poincare Sphere. Fresnel–Arago Interference Laws.
Part II: Polarimetry
Introduction. Methods of Measuring Stokes Polarization Parameters. Measurement of the Characteristics of Polarizing Elements. Stokes Polarimetry. Mueller Matrix Polarimetry. Techniques in Imaging Polarimetry. Channeled Polarimetry for Snapshot Measurements.
Part III: Applications
Introduction. Crystal Optics. Optics of Metals. Polarization Optical Elements. Ellipsometry. Form Birefringence and Meanderline Retarders.
Part IV: Classical and Quantum Theory of Radiation by Accelerating Charges
Introduction to Classical and Quantum Theory of Radiation by Accelerating Charges. Maxwell’s Equations for Electromagnetic Fields. The Classical Radiation Field. Radiation Emitted by Accelerating Charges. Radiation of an Accelerating Charge in the Electromagnetic Field. The Classical Zeeman Effect. Further Applications of the Classical Radiation Theory. The Stokes Parameters and Mueller Matrices for Optical Activity and Faraday Rotation. Stokes Parameters for Quantum Systems.
Appendices
Notă biografică
Dr. Dennis Goldstein is a senior physicist with Polaris Sensor Technologies, Inc., following a 28-year career in electro-optics research at the Air Force Research Laboratory. He is a fellow of SPIE and AFRL, and has served as an adjunct professor at the University of Arizona and University of Florida. He also teaches short courses for the Georgia Institute of Technology. In addition to Polarized Light, Dr. Goldstein has published more than 70 papers and technical reports, and two book chapters. He holds six patents.
Descriere
An in-depth exploration of polarized light, this book covers production and uses, facilitating self-study without prior knowledge of Maxwell's equations. This third edition includes more than 2,500 figures and equations along with chapters on polarization elements, anisotropic materials, Stokes polarimetry, Mueller matrix polarimetry, and the mathematics of the Mueller matrix. It features two new chapters, one on polarized light in nature and one on birefringence. It also presents a completely revised review of the history of polarized light and contains a new appendix on conventions used in polarized light.