Coherent Nonlinear Optics Recent (8 results)

Condition: Good. 377 pp., hardcover, ex library, else text clean and binding tight. - If you are reading this, this item is actually (physically) in our stock and ready for shipment once ordered. We are not bookjackers. Buyer is responsible for any additional duties, taxes, or fees required by recipient's country.

Hardcover. Condition: Good. No Jacket. First Edition. Ex library with the usual blemishes. Extremities a little worn. A00011910.

Hardcover. XVIII, 377 p. Ex-library with stamp and library-signature. GOOD condition, some traces of use. Ehem. Bibliotheksexemplar mit Signatur und Stempel. GUTER Zustand, ein paar Gebrauchsspuren. C-05549 3540101721 Sprache: Englisch Gewicht in Gramm: 550.

Condition: New. In.

PF. Condition: New.

Condition: Fair. Volume 21. This is an ex-library book and may have the usual library/used-book markings inside.This book has hardback covers. In fair condition, suitable as a study copy. No dust jacket. Please note the Image in this listing is a stock photo and may not match the covers of the actual item,850grams, ISBN:3540101721.

Paperback. Condition: Brand New. 395 pages. 9.60x6.70x1.00 inches. In Stock.

Taschenbuch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - Inhaltsangabe1. Coherent Nonlinear Optics.- 1.1 Introductory Comments.- References.- 2. Superradiance.- 2.1 Background Material.- 2.2 Physical Principles.- 2.3 Theoretical Treatments.- 2.3.1 Initiation of Superradiance: Quantized Field Treatment.- 2.3.2 Semiclassical Theory.- 2.4 Results of the Theory.- 2.4.1 Superradiance in the Ideal Limit.- 2.4.2 Influence of Quantum Fluctuations.- 2.4.3 Deviations from Ideal Behavior.- Finite Inversion Time.- Uniform Inversion: Cooperation Length.- Decay and Dephasing Times.- Feedback Initial Polarization.- Initial Polarization.- 2.4.4 Further Discussion of the Basic Assumptions.- Neglect of Interaction of Forward and Backward Waves.- Limitations of the Plane Wave Approximation.- 2.4.5 Point Sample Superradiance.- 2.5 Relation to Other Coherent Phenomena.- 2.5.1 Limited Superradiance.- 2.5.2 Transient Phenomena in Optically Thick Media.- 2.5.3 Stimulated and Superradiant Emission.- 2.6 Experiments.- 2.6.1 Experimental Observation of Superradiance.- 2.6.2 Recent Experimental Results.- 2.6.3 Comparison with Theory.- 2.7 Concluding Remarks.- 2.7.1 Applications.- 2.7.2 Summary.- References.- 3. Coherence in High Resolution Spectroscopy.- 3.1 Coherent Phenomena in Resonant Processes.- 3.2 Coherent Phenomena in Saturated Absorption Spectroscopy.- 3.2.1 Standing Wave.- 3.2.2 Probe Wave Resonances.- Oppositely Traveling Waves.- Unidirectional Waves.- High-Frequency Stark Effect on Doppler Broadened Transitions.- Spectroscopic Applications. Measurement of Relaxation Constants.- Study of Level Structures and Separation of Weak Lines.- Optical Instability. Generation Stability.- Recoil Effect.- 3.2.3 Influence of Collisions on Coherent Processes.- Study of Relaxation Processes.- Dipole Scattering.- Influence of the Elastic Scattering Without Phase Randomization on Resonance Characteristics.- 3.3 Coherent Phenomena in Multilevel Systems.- 3.3.1 Resonant Processes in Three-Level Systems.- 3.3.2 Two-Photon Resonances.- 3.3.3 Relation to Other Phenomena.- 3.4 Method of Separated Optical Fields.- 3.4.1 Two-Photon Resonance in Separated Fields.- Narrow Two-Photon Absorption Resonances of the Sequence of Supershort Pulses in a Gas.- 3.4.2 Resonance in Separated Fields for Two-Level Atoms.- 3.4.3 Coherent Radiation and Macroscopic Polarization Transfer in Separated Fields.- 3.4.4 Properties of Coherent Radiation in Separated Fields.- Destruction of an Interference Structure and Attainment of Resonances with a Radiative Width.- Particle Scattering.- 3.4.5 Coherent Raman Scattering in Separated Fields.- 3.4.6 Transient Resonant Coherent Effects.- References.- 4. Multiphoton Resonant Processes in Atoms.- 4.1 Various Experimental Aspects of Resonant Multiphoton Transitions in Atoms.- 4.1.1 Selective Pumping of an Excited Level with Multiphoton Transition.- 4.1.2 Intermediate Step in Other Processes.- 4.1.3 Spectroscopy Using Broadband Lasers.- 4.2 Doppler-Free Two-Photon Experiments.- 4.2.1 Principle of Doppler-Free Multiphoton Transitions.- 4.2.2 Experimental Observation of Doppler-Free Two-Photon Transitions.- Typical Experiment in Sodium.- Thermoionic Detection.- 4.2.3 Doppler-Free Two-Photon Transitions in Hydrogen.- 4.2.4 Other Possibilities of Doppler-Free Two-Photon Transitions.- 4.2.5 Experiments with Two Different Light Sources.- 4.3 Theory of Two-Photon Transitions in Atoms.- 4.3.1 The Effective Hamiltonian.- 4.3.2 Solution of the Density Matrix Equation.- 4.3.3 Case of Two Waves with Complex Polarizations.- 4.3.4 Two-Photon Line Shape in Vapors.- 4.3.5 Light Shifts.- Comparison with Experiments.- 4.3.6 Selection Rules for Two-Photon Transitions.- 4.4 Multiphoton Transitions.- 4.4.1 Generalization of the Effective Hamiltonian.- 4.4.2 Discussion of the Light Shifts.- Case of a Standing Wave.- 4.4.3 Application to Multiphoton Ionization.- 4.4.4 Doppler-Free Three-Photon Transition.- 4.4.5 Three-Photon Selection Rules.- 4.5 Dispersion Near a Two-Photon Resonance.- 4.5.1 Refractive Index for a Travelling Wave.- 4.5.2 R.