书籍详情
理论飞秒物理:强激光场中的原子和分子(影印版 Theoretical Femtosecond Physics)
作者:(德)格罗斯曼 著
出版社:北京大学出版社
出版时间:2013-07-01
ISBN:9787301226872
定价:¥39.00
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内容简介
《中外物理学精品书系·引进系列·理论飞秒物理:强激光场中的原子和分子(影印版)(英文)》内容丰富,涵盖面广,可读性强,其中既有对我国传统物理学发展的梳理和总结,也有对正在蓬勃发展的物理学前沿的全面展示;既引进和介绍了世界物理学研究的发展动态,也面向国际主流领域传播中国物理的优秀专著。可以说,“中外物理学精品书系”力图完整呈现近现代世界和中国物理科学发展的全貌,是一部目前国内为数不多的兼具学术价值和阅读乐趣的经典物理丛书。
作者简介
暂缺《理论飞秒物理:强激光场中的原子和分子(影印版 Theoretical Femtosecond Physics)》作者简介
目录
Part I Prerequisites
1 A Short Introduction to Laser Physics
1.1 The Einstein Coefficients
1.2 Fundamentals of the Laser
1.2.1 Elementary Laser Theory
1.2.2 Realization of the Laser Principle
1.3 Pulsed Lasers
1.3.1 Frequency Comb
1.3.2 Carrier Envelope Phase
1.3.3 Husimi Representation of Laser Pulses
1.A Some Gaussian Integrals
References
2 Time-Dependent Quantum Theory
2.1 The Time-Dependent Schrodinger Equation
2.1.1 Introduction
2.1.2 Time-Evolution Operator
2.1.3 Spectral Information
2.1.4 Analytical Solutions for Wavepackets
2.2 Analytical Approaches
2.2.1 Feynman's Path Integral
2.2.2 Semiclassical Approximation
2.2.3 Time-Dependent Perturbation Theory
2.2.4 Magnus Expansion
2.2.5 Time-Dependent Hartree Method
2.2.6 Quantum-Classical Methods
2.2.7 Floquet Theory
2.3 Numerical Methods
2.3.1 Orthogonal Basis Expansion
2.3.2 Split-Operator FFT Method
2.3.3 Alternative Methods of Time-Evolution
2.3.4 Semiclassical Initial Value Representations
2.A The Royal Road to the Path Integral
2.B Variational Calculus
2.C Stability Matrix
2.D From the HK- to the VVG-Propagator
References
Part II Applications
3 Field Matter Coupling and Two-Level Systems
3.1 Light Matter Interaction
3.1.1 Minimal Coupling
3.1.2 Length Gauge
3.1.3 Kramers-Henneberger Transformation
3.1.4 Volkov Wavepacket
3.2 Analytically Solvable Two-Level Problems
3.2.1 Dipole Matrix Element
3.2.2 Rabi Oscillations Induced by a Constant Perturbation
3.2.3 Time-Dependent Perturbations
3.2.4 Exactly Solvable Time-Dependent Cases
3.A Generalized Parity Transformation
3.B Two-Level System in an Incoherent Field
References
4 Single Electron Atoms in Strong Laser Fields
4.1 The Hydrogen Atom
4.1.1 Hydrogen in Three Dimensions
4.1.2 The One-Dimensional Coulomb Problem
4.2 Field Induced Ionization
4.2.1 Tunnel Ionization
4.2.2 Multiphoton Ionization
4.2.3 ATI in the Coulomb Potential
4.2.4 Stabilization in Very Strong Fields
4.2.5 Atoms Driven by HCP
4.3 High Harmonic Generation
4.3.1 Three-Step Model
4.3.2 Odd Harmonics Rule
4.3.3 Semiclassical Explanation of the Plateau
4.3.4 Cutoff and Odd Harmonics Revisited
4.A More on Atomic Units
……
References
References
Index
1 A Short Introduction to Laser Physics
1.1 The Einstein Coefficients
1.2 Fundamentals of the Laser
1.2.1 Elementary Laser Theory
1.2.2 Realization of the Laser Principle
1.3 Pulsed Lasers
1.3.1 Frequency Comb
1.3.2 Carrier Envelope Phase
1.3.3 Husimi Representation of Laser Pulses
1.A Some Gaussian Integrals
References
2 Time-Dependent Quantum Theory
2.1 The Time-Dependent Schrodinger Equation
2.1.1 Introduction
2.1.2 Time-Evolution Operator
2.1.3 Spectral Information
2.1.4 Analytical Solutions for Wavepackets
2.2 Analytical Approaches
2.2.1 Feynman's Path Integral
2.2.2 Semiclassical Approximation
2.2.3 Time-Dependent Perturbation Theory
2.2.4 Magnus Expansion
2.2.5 Time-Dependent Hartree Method
2.2.6 Quantum-Classical Methods
2.2.7 Floquet Theory
2.3 Numerical Methods
2.3.1 Orthogonal Basis Expansion
2.3.2 Split-Operator FFT Method
2.3.3 Alternative Methods of Time-Evolution
2.3.4 Semiclassical Initial Value Representations
2.A The Royal Road to the Path Integral
2.B Variational Calculus
2.C Stability Matrix
2.D From the HK- to the VVG-Propagator
References
Part II Applications
3 Field Matter Coupling and Two-Level Systems
3.1 Light Matter Interaction
3.1.1 Minimal Coupling
3.1.2 Length Gauge
3.1.3 Kramers-Henneberger Transformation
3.1.4 Volkov Wavepacket
3.2 Analytically Solvable Two-Level Problems
3.2.1 Dipole Matrix Element
3.2.2 Rabi Oscillations Induced by a Constant Perturbation
3.2.3 Time-Dependent Perturbations
3.2.4 Exactly Solvable Time-Dependent Cases
3.A Generalized Parity Transformation
3.B Two-Level System in an Incoherent Field
References
4 Single Electron Atoms in Strong Laser Fields
4.1 The Hydrogen Atom
4.1.1 Hydrogen in Three Dimensions
4.1.2 The One-Dimensional Coulomb Problem
4.2 Field Induced Ionization
4.2.1 Tunnel Ionization
4.2.2 Multiphoton Ionization
4.2.3 ATI in the Coulomb Potential
4.2.4 Stabilization in Very Strong Fields
4.2.5 Atoms Driven by HCP
4.3 High Harmonic Generation
4.3.1 Three-Step Model
4.3.2 Odd Harmonics Rule
4.3.3 Semiclassical Explanation of the Plateau
4.3.4 Cutoff and Odd Harmonics Revisited
4.A More on Atomic Units
……
References
References
Index
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