Optical properties of materials and their applications /
Optical properties of materials and their applications /
edited by Jai Singh (College of Engineering, IT, and Environment, Charles Darwin University, Darwin, Australia).
- Second edition. Hoboken, NJ : John Wiley & Sons, 2020.
- 1 online resource (xx, 647 pages)
Previous edition: Optical properties of condensed matter and applications, 2006.
"Optical properties of a material change or affect the characteristics of light passing through it by modifying its propagation vector or intensity. Two of the most important optical properties are the refractive index n and the extinction coefficient K, which are generically called optical constants; though some authors include other optical coefficients within this terminology. The latter is related to the attenuation or absorption coefficient . In Part I, in this chapter, we present the complex refractive index, the frequency or wavelength dependence of n and K, so-called dispersion relations, how n and K are inter-related, and how n and K can be determined by studying the transmission as a function of wavelength through a thin film of the material"--
9781119506058 1119506050 9781119506003 111950600X 1119506069 9781119506065
Condensed matter--Optical properties.
Materials--Optical properties.
Electrooptics--Materials.
Condensed matter--Optical properties.
Electrooptics--Materials.
Materials--Optical properties.
Previous edition: Optical properties of condensed matter and applications, 2006.
"Optical properties of a material change or affect the characteristics of light passing through it by modifying its propagation vector or intensity. Two of the most important optical properties are the refractive index n and the extinction coefficient K, which are generically called optical constants; though some authors include other optical coefficients within this terminology. The latter is related to the attenuation or absorption coefficient . In Part I, in this chapter, we present the complex refractive index, the frequency or wavelength dependence of n and K, so-called dispersion relations, how n and K are inter-related, and how n and K can be determined by studying the transmission as a function of wavelength through a thin film of the material"--
9781119506058 1119506050 9781119506003 111950600X 1119506069 9781119506065
Condensed matter--Optical properties.
Materials--Optical properties.
Electrooptics--Materials.
Condensed matter--Optical properties.
Electrooptics--Materials.
Materials--Optical properties.