04687nam 2200649 450 991046442220332120210517105305.00-19-157672-7(CKB)3710000000088680(EBL)3056080(OCoLC)870994520(SSID)ssj0001108567(PQKBManifestationID)11668526(PQKBTitleCode)TC0001108567(PQKBWorkID)11087110(PQKB)10516595(MiAaPQ)EBC3056080(PPN)188348174(Au-PeEL)EBL3056080(CaPaEBR)ebr10838525(CaONFJC)MIL576907(EXLCZ)99371000000008868020140226h20102010 uy 0engur|n|---|||||txtccrOptical properties of solids /Mark FoxSecond edition.Oxford, [England] :Oxford University Press,2010.©20101 online resource (415 p.)Oxford Master Series in PhysicsDescription based upon print version of record.0-19-957337-9 0-19-957336-0 Includes bibliographical references and index.""Contents""; ""1 Introduction""; ""1.1 Classification of optical processes""; ""1.2 Optical coefficients""; ""1.3 The complex refractive index and dielectric constant""; ""1.4 Optical materials""; ""1.4.1 Crystalline insulators and semiconductors""; ""1.4.2 Glasses""; ""1.4.3 Metals""; ""1.4.4 Molecular materials""; ""1.4.5 Doped glasses and insulators""; ""1.5 Characteristic optical physics in the solid state""; ""1.5.1 Crystal symmetry""; ""1.5.2 Electronic bands""; ""1.5.3 Vibronic bands""; ""1.5.4 The density of states""; ""1.5.5 Delocalized states and collective excitations""""1.6 Microscopic models""""Chapter summary""; ""Further reading""; ""Exercises""; ""2 Classical propagation""; ""2.1 Propagation of light in a dense optical medium""; ""2.1.1 Atomic oscillators""; ""2.1.2 Vibrational oscillators""; ""2.1.3 Free electron oscillators""; ""2.2 The dipole oscillator model""; ""2.2.1 The Lorentz oscillator""; ""2.2.2 Multiple resonances""; ""2.2.3 Comparison with experimental data""; ""2.2.4 Local field corrections""; ""2.3 The Kramersâ€?Kronig relationships""; ""2.4 Dispersion""; ""2.5 Optical anisotropy""; ""2.5.1 Natural anisotropy: birefringence""""2.5.2 Induced optical anisotropy""""2.6 Optical chirality""; ""Chapter summary""; ""Further reading""; ""Exercises""; ""3 Interband absorption""; ""3.1 Interband transitions""; ""3.2 The transition rate for direct absorption""; ""3.3 Band edge absorption in direct gap semiconductors""; ""3.3.1 The atomic physics of the interband transitions""; ""3.3.2 The band structure of a direct gap IIIâ€?V semiconductor""; ""3.3.3 The joint density of states""; ""3.3.4 The frequency dependence of the band edge absorption""; ""3.3.5 The Franzâ€?Keldysh effect""""3.3.6 Band edge absorption in a magnetic field""""3.3.7 Spin injection""; ""3.4 Band edge absorption in indirect gap semiconductors""; ""3.5 Interband absorption above the band edge""; ""3.6 Measurement of absorption spectra""; ""3.7 Semiconductor photodetectors""; ""3.7.1 Photodiodes""; ""3.7.2 Photoconductive devices""; ""3.7.3 Photovoltaic devices""; ""Chapter summary""; ""Further reading""; ""Exercises""; ""4 Excitons""; ""4.1 The concept of excitons""; ""4.2 Free excitons""; ""4.2.1 Binding energy and radius""; ""4.2.2 Exciton absorption""""4.2.3 Experimental data for free excitons in GaAs""""4.3 Free excitons in external fields""; ""4.3.1 Electric fields""; ""4.3.2 Magnetic fields""; ""4.4 Free excitons at high densities""; ""4.5 Frenkel excitons""; ""4.5.1 Rare gas crystals""; ""4.5.2 Alkali halides""; ""4.5.3 Molecular crystals""; ""Chapter summary""; ""Further reading""; ""Exercises""; ""5 Luminescence""; ""5.1 Light emission in solids""; ""5.2 Interband luminescence""; ""5.2.1 Direct gap materials""; ""5.2.2 Indirect gap materials""; ""5.3 Photoluminescence""; ""5.3.1 Excitation and relaxation""""5.3.2 Low carrier densities""Oxford master series in condensed matter physics.SolidsOptical propertiesElectronic books.SolidsOptical properties.530.4/12Fox Mark66654MiAaPQMiAaPQMiAaPQBOOK9910464422203321Optical properties of solids377530UNINA