Nonlinear optical (2nd Edition) (Graduate)(Chinese Edition)
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paperback. New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date: October 2012 of Pages: 536 in Publisher: Xi'an Electronic Science and Technology University Press nonlinear optical (2nd Edition) (Graduate) based on polarization theory. the use of semi-classical theory system. explain in detail the non- The linear optics theoretical basis to discuss the important nonlinear optical disciplines branch. including the steady-state process of interaction of light and matter. dynamic processes and transient process. The book is divided into 10 chapters: the first three chapters of the basic theory. brief nonlinear optical classical theory based on the theory of quantum mechanics and electromagnetic theory of light response characteristics of the substance of light and radiation characteristics; Chapters 4 and 5 discuss steady-state second-order and third-order nonlinear optical effects; Chapter 6 discusses the transient coherent optical; Chapter 4 systematically discuss the four branches in the field of nonlinear optics: nonlinear optical phase conjugation. photorefractive nonlinear optics and optical bistability. ultrashort light pulse nonlinear optical fiber nonlinear optics. Nonlinear optical (2nd Edition) (graduate) can be used as optical. optical engineering. physics. electronics. physics and other professional courses nonlinear optical textbook for graduate students. can also be used as other relevant professional teachers and students. as well as scientific and technical personnel reference books. Contents: Chapter 1 nonlinear medium 1.1 polarizability dispersion characteristics 1.2 nonlinear optical polarizability classic in the response characteristics of the classic description of the general nature of the exercises described in 1.3 polarizability References Chapter 2 nonlinear dielectric response the characteristics of the quantum mechanical description of the 2.1 density operator and its equation of motion 2.2 nonlinear polarizability perturbation theory 2.3 nearly independent of molecular systems the polarized rate of 2.4 intermolecular weak interaction medium polarizability tensor 2.5 resonance enhanced polarization rate of 2.7 effective field the medium polarization rate of 2.6 charged particles can move freely medium the polarized rate of 2.8 quasi-monochromatic wave nonlinear polarization 2.9 two-level atom system polarizability 2.10 Nonlinear Optical Materials exercises refer to Chapter 3 light wave propagation in nonlinear media electromagnetic theory 3.2 3.1 propagation characteristics of light waves in anisotropic crystals dielectric loss of wave propagation 3.3 nonlinear optical coupled wave equations 3.4 nonlinear medium field energy 3.5 nonlinear optical phase matching and quasi-phase-matching exercises References Chapter 4. second-order nonlinear optical effects 4.1 4.2 optical rectification effect of the linear electro-optic effect and subpicosecond optical rectification effect 4.3 three-wave mixing and frequency. the difference frequency generated the 4.4 second harmonic generation (SHG) 4.5 parametric conversion Exercises References Chapter 5. the third-order nonlinear optical effects 5.1 4.6 parametric amplification and parametric oscillation photoluminescence third harmonic nonlinear refractive index effects 5.2 5.3 four wave mixing 5.4 two-photon absorption of 5.5 Stimulated Raman Scattering (SRS) 5.6 by stimulated Brillouin scattering (SBS) 5.7 by laser light scattering phenomena generally consider Exercises References Chapter 6 6.1 transient coherent optical transient coherent optical effects the role overview of 6.2 vector of the interaction of light with a two-level atom system describes the effects of the 6.5 photon echo effect 6.6 6.3 optical nutation effect 6.4 optical free induction decay self-induced transparency Exercises References Chapter 7 nonlinear optical phase conjugation with The optical bistability 7.1 nonlinear optical phase conjugation of 72.000 three-wave mixing. four-wave mixing phase conjugation technology application conjugate technology 7.4 optical phase conjugation by stimulated Brillouin scattering (SBS) optical phase 7.3 7.5 the basic principles of the nonlinear optical bistable Overview 7.6 optical bistability a 7.7 optical bistable basic form of Exercises References Chapter 8 photorefractive nonlinear optics 8.1 the photorefractive effect dynamic basis 8.2 photorefractive crystal two-wave mixing and degenerate four-wave mixing 8.3 8.4 Self-pumped and mutually pumped phase conjugate photorefractive spatial solitons 8.5 photorefractive the material 8.6 photorefractive nonlinear optical applications Exercises References Chapter 9 9.5 femtosecond pulse parameters of ultrashort optical pulses nonlinear optical 9.1 ultrashort optical pulse propagation equation 9.2 ultrashort light pulse second-harmonic generation (SHG) 9.3 ultrashort light pulses with the enlarged 9.4 nonlinear phase modulation 9.6 generation of ultrashort light pulses self-focusing of 9.7 femtosecond laser soliton Exercises References Chapter 10 fiber nonlinear optical 10.1 the linear characteristics of the optical fiber 10.2 fiber-optic transmission basic equation 10.3 optical signal transmission in dispersion fiber 10.4 soliton fiber 10.8 10.7 fiber stimulated inelastic scattering of self-phase modulation and cross-phase modulation in fiber optical Kerr effect in optical fiber 10.5 10.6 fiber four-wave mixing (FWM) effect 10.9 ultrashort generation of fiber laser and nonlinear effects Exercises References Appendix types of crystal polarizability tensor form of Appendix A seven types of crystal and isotropic medium linear susceptibility tensor (1) () form of Appendix seven types of crystal and isotropic medium of second-order susceptibility tensor (2) (1. 2) form of Appendix C 32 crystal classes and isotropic medium of the third-order susceptibility tensor (3) (1. 2. 3) form Satisfaction guaranteed,or money back.

Daten vom 18.05.2018 18:01h
ISBN (andere Schreibweisen): 7-5606-2779-X, 978-7-5606-2779-3