量子光学基础

《量子光学基础》是世界图书出版公司2010年8月1日出版的图来自书，由梅斯瑞编著。本书介绍了Quantum Mechanical Background、Classical Electromagnetic Fields 

• 书名 量子光学基础
• 页数 507 页
• 开本 24 开
• 装帧 平装

信息

　　出版社: 世界图书出版公司; 第1来自版 (2010年8月360百科1日)

　　外文书名: 宜迅茶世妈气Elements of Quantum Optics

　　正文语种: 英语

　　ISBN: 9787510023989, 751002398X

　　条形码: 9787尽策土宪角万合促轻划510023989

　　尺寸: 22.2 x 14.6 x 2.2 cm

白图啊　　重量: 621 g

作者简介

　　作者:(美国)梅斯瑞

内容简介

　　《量子光学基础(第4版)》主要内容简介:This book grew out of a 2-semes杨初品界活似李ter graduate course in laser physics and quan-tum optics. I调图国限苏轻剂t requires a solid understanding of elementary electromagnetismas well as at least one, b富动够油于福为海失ut preferabl轴处y two, semesters of quantum mechanics.

目录

　　来自Classical Electromagnetic Fields

　　1.1 Maxwell's 培货照声皇青附云重例际Equations in a Vacuum

　　1.2 Maxwell's Equations in a Medium

　　1.3 Linear Dipole Oscillator

　　1360百科.4 Coherence

　　1.5 Free-Electron Lasers

　　Problems

　　Classical Nonlinear Optics

　　2.1 Nonlinear Dipole Oscillator

　　2.2 Coupled-Mo有副片他克控业de Equations

　　2.3 Cubic Nonlinearity

　　2.4 Four-Wave Mixing with Degenerate Pump Frequencies

　　2.5 Nonlinear Susceptibilities

　　Problems

　　Quantum Mechanical Background

　　3.1 Review of Quantum Mechanics

　　3.2 Time-Dependent P在度预父衣erturbation Theory

　　3.3 At针化己助兴若om-Field Interaction for Two-Leve模火制冲的整批l Atoms

　　3.4 Simple Harmonic 增盟掉基Oscillator

　　Problems

　　M作较皇ixtures and the Density Operator

　　4.1 Level Damping

　并速钢专入断此　4.2 The Density Matrix

　　红作胜单企续4.3 Vector Model of Density Ma华财立课练策耐蒸断皮trix

　　Problems

　　CW Field Interactions

　　5.1 Polarization of Two-Level Medium

　　5.2 Inhomogeneously Broadened Media

　　5.3 Counterpropagating Wave Interactions

　　5.4 Tw装每o-Photon Two-L村朝临演千统破飞evel Model

　　5.5 Polarization of Semiconductor Gain Media

　　Problems

　　6 Mechanical Effects of Light

　　6.1 Atom-Field Interaction

　　6.2 Doppler Cooling

　　6.3 The Ne别传见每实振谈ar-Resonant Kapitza-Dirac Eff外弱别里计都ect

　　6.4 Atom Interferometry

　　Problems

　　Introduction to Laser Theory

　　7.1 The Laser Self-Consistency Equations

　　7.2 Steady-State Amplitude and Frequency

　　7.3 Standing-Wave, Doppler-Broadened Lasers

　　7.4 Two-Mode Operation and the Ring Laser

　　7.5 Mode Locking

　　7.6 Single-Mode Semiconductor Laser Theory

　　7.7 Transverse Variations and Gaussian Beams

　　Problems

　　Optical Bistability

　　8.1 Simple Theory of Dispersive Optical Bistability

　　8.2 Absorptive Optical Bistability

　　8.3 Ikeda Instability

　　Problems

　　9 Saturation Spectroscopy

　　9.1 Probe Wave Absorption Coefficient

　　9.2 Coherent Dips and the Dynamic Stark Effect

　　9.3 Inhomogeneously Broadened Media

　　9.4 Three-Level Saturation Spectroscopy

　　9.5 Dark States and Electromagnetically Induced Transparency

　　Problems

　　10 Three and Four Wave Mixing

　　10.1 Phase Conjugation in Two-Level Media

　　10.2 Two-Level Coupled Mode Coefficients

　　10.3 Modulation Spectroscopy

　　10.4 Nondegenerate Phase Conjugation by Four-Wave Mixing

　　Problems

　　11 Time-Varying Phenomena in Cavities

　　11.1 Relaxation Oscillations in Lasers

　　11.2 Stability of Single-Mode Laser Operation

　　11.3 Multimode Mode Locking

　　11.4 Single-Mode Laser and the Lorenz Model

　　Problems

　　Coherent Transients

　　12.1 Optical Nutation

　　12.2 Free Induction Decay

　　12.3 Photon Echo

　　12.4 Ramsey Fringes

　　12.5 Pulse Propagation and Area Theorem

　　12.6 Self-Induced Transparency

　　12.7 Slow Light

　　Problems

　　Field Quantization

　　13.1 Single-Mode Field Quantization

　　13.2 Multimode Field Quantization

　　13.3 Single-Mode Field in Thermal Equilibrium

　　13.4 Coherent States

　　13.5 Coherence of Quantum Fields

　　13.6 Quasi-Probability Distributions

　　13.7 SchrSdinger Field Quantization

　　13.8 The Gross-Pitaevskii Equation

　　Problems

　　Interaction Between Atoms and Quantized Fields

　　14.1 Dressed States

　　14.2 Jaynes-Cummlngs Model

　　14.3 Spontaneous Emission in Free Space

　　14.4 Quantum Beats

　　Problems

　　System-Reservoir Interactions

　　15.1 Master Equation

　　15.2 Fokker-Planck Equation

　　15.3 Langevin Equations

　　15.4 Monte-Carlo Wave Functions

　　15.5 Quantum Regression Theorem and Noise Spectra

　　Problems

　　Resonance Fluorescence

　　16.1 Phenomenology

　　16.2 Langevin Equations of Motion

　　16.3 Scattered Intensity and Spectrum

　　16.4 Connection with Probe Absorption

　　16.5 Photon Antibnnching

　　16.6 Off-Resonant Excitation

　　Problems

　　Squeezed States of Light

　　17.1 Squeezing the Coherent State

　　17.2 Two-Sidemode Master Equation

　　17.3 Two-Mode Squeezing

　　17.4 Squeezed Vacuum

　　Problems

　　Cavity Quantum ElectrodynAmlcs

　　18.1 Generalized Master Equation for the Atom-Cavity System

　　18.2 Weak Coupling Regime

　　18.3 Strong Coupling Regime

　　18.4 Velocity-Dependent Spontaneous Emission

　　18.5 Input-Output Formalism

　　Problems

　　Quantum Theory of a Laser

　　19.1 The Micromaser

　　19.2 Single Mode Laser Master Equation

　　19.3 Laser Photon Statistics and Linewidth

　　19.4 Quantized Sidemode Buildup

　　Problems

　　Entanglement, Bell Inequalities and Quantum Information

　　20.1 Einstein-Podolsky-Rosen Paradox and Bell Inequalities

　　20.2 Bipartite Entanglement

　　20.3 The Quantum Beam Splitter

　　20.4 Quantum Teleportation

　　20.5 Quantum Cryptography

　　20.6 Toward Quantum Computing

　　Problems

　　References

　　Index