Optical materials / Joseph H. Simmons and Kelly S. Potter.
By: Simmons, J. H. (Joseph Habib) [author.].
Contributor(s): Simmons, J. H. (Joseph Habib) [author.].
Material type: BookPublisher: San Diego : Elsevier, 2021Edition: 2nd ed.Description: 1 online resource (532 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9780128226490; 0128226498.Subject(s): Optical materials | Mat�eriaux optiques | Optical materialsAdditional physical formats: Print version:: Optical Materials.DDC classification: 620.1/1295 Online resources: ScienceDirect Summary: Optical Materials, Second Edition, presents, in a unified form, the underlying physical and structural processes that determine the optical behavior of materials. It does this by combining elements from physics, optics, and materials science in a seamless manner, and introducing quantum mechanics when needed. The book groups the characteristics of optical materials into classes with similar behavior. In treating each type of material, the text pays particular attention to atomic composition and chemical makeup, electronic states and band structure, and physical microstructure so that the reader will gain insight into the kinds of materials engineering and processing conditions that are required to produce a material exhibiting a desired optical property. The physical principles are presented on many levels, including a physical explanation, followed by formal mathematical support and examples and methods of measurement. The reader may overlook the equations with no loss of comprehension, or may use the text to find appropriate equations for calculations of optical properties.Print version record.
Optical Materials, Second Edition, presents, in a unified form, the underlying physical and structural processes that determine the optical behavior of materials. It does this by combining elements from physics, optics, and materials science in a seamless manner, and introducing quantum mechanics when needed. The book groups the characteristics of optical materials into classes with similar behavior. In treating each type of material, the text pays particular attention to atomic composition and chemical makeup, electronic states and band structure, and physical microstructure so that the reader will gain insight into the kinds of materials engineering and processing conditions that are required to produce a material exhibiting a desired optical property. The physical principles are presented on many levels, including a physical explanation, followed by formal mathematical support and examples and methods of measurement. The reader may overlook the equations with no loss of comprehension, or may use the text to find appropriate equations for calculations of optical properties.
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