《極端非線性光學》一書的出版社是科學出版社,作者是:韋格納,出版時間是 2011年6月1日。
基本介紹
- 書名:: 極端非線性光學
- 作者:韋格納
- 定價:69.00元
- 出版社: 科學出版社
- 出版時間: 2011年6月1日
- 開本:16開
內容簡介,作者簡介,圖書目錄,
內容簡介
Followingthebirthofthelaserin1960,thefieldof"nonlinearoptics"rapidlyemerged.Today,laserintensitiesandpulsedurationsarereadilyavailable,forwhichtheconceptsandapproximationsoftraditionalnonlinearopticsnolongerapply.Inthisregimeof"extremenonlinearoptics,"alargevarietyofnovelandunusualeffectsarise,forexamplefrequencydoublingininversionsymmetricmaterialsorhigh-harmonicgenerationingases,whichcanleadtoattosecondelectromagneticpulsesorpulsetrains.Otherexamplesof"extremenonlinearoptics"coverdiverseareassuchassolid-statephysics,atomicphysics,relativisticfreeelectronsinavacuumandeventhevacuumitself.Thisbookstartswithanintroductiontothefieldbasedprimarilyonextensionsoftwofamoustextbookexamples,namelytheLorentzoscillatormodelandtheDrudemodel.Herethelevelofsophisticationshouldbeaccessibletoanyundergraduatephysicsstudent.Manygraphicalillustrationsandexamplesaregiven.Thefollowingchaptersgraduallyguidethestudenttowardsthecurrent"stateoftheart"andprovideacomprehensiveoverviewofthefield.Everychapterisaccompaniedbyexercisestodeepenthereader'sunderstandingofimportanttopics,withdetailedsolutionsattheendofthebook.
作者簡介
作者:(美國)韋格納(Wegener.M.)
圖書目錄
1 Introduction
1.1 "Traditional" Nonlinear Optics - Extreme Nonlinear Optics
1.2 How to Read this Book?
2 Selected Aspects of Few-Cycle Laser Pulses and Nonlinear Optics .
2.1 Maxwell Equations
2.2 The Light Intensity
2.3 Electric Field in a Laser Resonator
2.4 A Brief Look at Phenomenological Nonlinear Optics
2.5 Even-Harmonic Generation and Inversion Symmetry
2.6 Principle of Measuring the Carrier-Envelope Frequency
3 The Lorentz Oscillator Model and Beyond
3.1 Linear Optics: Revisiting the Lorentz Oscillator Model
3.2 Two-Level Systems and Rabi Energy
3.3 Carrier-Wave Rabi Flopping
3.4 Frequency Doubling with Inversion Symmetry
3.5 Quantum Interference of Multiphoton Absorption
3.6 High Harmonics from Two-Level Systems
3.6.1 The "Static-Field Approximation".
3.6.2 The "Square-Wave Approximation".
3.6.3 The Dressed Two-Level System: Fioquet States
4 The Drude Free-Electron Model and Beyond
4.1 Linear Optics: The Drude Model
4.2 Electron Wave Packets Driven by Light
4.2.1 Semiclassical Considerations
4.2.2 Quantum-Mechanical Treatment: Dressed Electrons
4.3 Crystal Electrons
4.3.1 Static-Field Case
4.3.2 High Harmonics from Carrier-Wave Bloch Oscillations
4.4 Extreme Nonlinear Optics of Relativistic Electrons
4.4.1 Second-Harmonic Generation and Photon Drag
4.4.2 Nonperturbative Regime
4.5 Extreme Nonlinear Optics of Dirac Electrons
4.6 Unruh Radiation
5 Lorentz Becomes Drude: Bound-Unbound Transitions
5.1 High-Harmonic Generation: Phenomenological Approach
5.2 The Keldysh Parameter
5.3 Field Ionization of Atoms
5.4 High-Harmonic Generation
5.4.1 Three-Step Scenario and Cutoff
5.5 Application to Photoemission from Metal Surfaces
6 Accounting for Propagation Effects
6.1 Numerical Solution of the Nonlinear Maxwell Equations
6.2 Slowly Varying Envelope Approximation
6.3 Gouy Phase and Carrier-Envelope Phase
6.4 Reshaping of the Amplitude Spectrum
7 Extreme Nonlinear Optics of Semiconductors and Isolators
7.1 Carrier-Wave Rabi Flopping
7.1.1 Experiment
7.1.2 Theory
7.1.3 Dependence on the Carrier-Envelope Phase
7.1.4 Semiconductor Bloch Equations
7.2 "THG in the Disguise of SHG".
7.3 Dynamic Franz-Keldysh Effect
7.4 Photon Drag or Dynamic Hall Effect
7.5 Conical Second-Harmonic Generation
8 Extreme Nonlinear Optics of Atoms and Electrons
8.1 High-Harmonic Generation From Atoms
8.1.1 Gas Jets
8.1.2 Hollow Waveguides
8.1.3 Quasi Phase-Matching in Modulated Capillaries
8.1.4 Dependence on the Carrier-Envelope Phase
8.2 Relativistic Nonlinear Thomson Scattering
Solutions
Symbols
References
Index