02131nam 2200457 450 991055528360332120191211133856.01-119-50605-01-119-50600-X1-119-50606-9(CKB)4950000000162707(MiAaPQ)EBC5979142(EXLCZ)99495000000016270720191211d2020 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierOptical properties of materials and their applications /edited by Jai SinghSecond edition.Hoboken, NJ :Wiley,2020.1 online resource (670 pages)1-119-50631-X "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"--Provided by publisher.Condensed matterOptical propertiesMaterialsOptical propertiesElectroopticsMaterialsCondensed matterOptical properties.MaterialsOptical properties.ElectroopticsMaterials.530.412Singh Jai986814Singh JaiMiAaPQMiAaPQMiAaPQBOOK9910555283603321Optical properties of materials and their applications2817811UNINA