四波混頻相干控制

內(nèi)容概要

張彥鵬、聶志強、肖敏所著的《四波混頻相干控制(英文版)》討論原子相干誘導的多能級原子系統(tǒng)中四波混頻過程頻率、時間與空間領域的相互作用。《四波混頻相干控制(英文版)》涉及五個方面的內(nèi)容：多能級多色激光相干產(chǎn)生的四波混頻超快極化拍；色鎖噪聲場關聯(lián)的拉曼－瑞利－布里淵增強極化拍；超薄、微米量級及長樣品池中的不同類型雙綴飾四波混頻過程；多能級電磁感應透明介質(zhì)中四波混頻與六波混頻時間空間干涉；探測場與四波混頻場的空間移動與分裂以及四波混頻信號中的帶隙孤子串、旋轉孤子以及多分量矢量孤子。
《四波混頻相干控制(英文版)》適合非線性光學領域的專家學者以及在校研究生和本科生學習參考。

作者簡介

作者：張彥鵬 聶志強 （美國）肖敏

書籍目錄

1 Introduction
　1.1 Nonlinear Susceptibility
　1.2 Coherence Functions
　1.3 Suppression and Enhancement of FWM Processes
　1.4 Double Dressing Schemes of Probe and Four-Wave Mixing
Fields
　1.5 Spatial Optical Modulation via Kerr Nonlinearities
　1.6 Formations and Dynamics of Novel Spatial Solitons
　References
2 Ultrafast Polarization Beats of Four-Wave Mixing Processes
　2.1 Four-level Polarization Beats with Broadband Noisy Light
　　2.1.1 Basic Theory
　　2.1.2 FLPB in a Doppler-broadened System
　　2.1.3 Photon-echo
　　2.1.4 Experiment and Result
　2.2 Ultrafast Sum-frequency Polarization Beats in Twin Markovian
Stochastic Correlation
　　2.2.1 Basic Theory
　　2.2.2 Second-order Stochastic Correlation of ASPB
　　2.2.3 Fourth-order Stochastic Correlation of ASPB
　References
3 Raman, Rayleigh and Brillouin-enhanced FWM Polarization
Beats
　3.1 Attosecond Sum-frequency Raman-enhanced Polarization Beats
Using Twin Phase-sensitive Color Locking Noisy Lights
　　3.1.1 Basic Theory of Attosecond Sum-frequency REPB
　　3.1.2 Homodyne Detection of Sum-frequency REPB
　　3.1.3 Heterodyne Detection of Difference-frequency REPB
　3.2 Competition Between Raman and Rayleigh-enhanced Four-Wave
Mixings in Attosecond Polarization Beats
　　3.2.1 Basic Theory
　　3.2.2 Stochastic Correlation Effects of Rayleigh and
Raman-enhanced FWM
　　3.2.3 The Raman and Rayleigh-enhanced Nonlinear Susceptibility in
cw Limit
　　3.2.4 Homodyne Detection of ASPB
　　3.2.5 Heterodyne Detection of ASPB
　　3.2.6 Discussion and Conclusion
　3.3 Coexisting Brillouin, Rayleigh and Raman-enhanced Four-Wave
Mixings
　　3.3.1 Basic Theory
　　3.3.2 Homodyne Detection of ASPB
　　3.3.3 Heterodyne Detection of ASPB
　　3.3.4 Phase Angle
　　3.3.5 Discussion and Conclusion
　References
4 Multi-Dressing Four-Wave Mixing Processes in Confined and
Non-confined Atomic System
　4.1 Temporal and Spatial Interference Between Four-Wave Mixing and
Six-Wave Mixing Channels
　4.2 Intermixing Between Four-Wave Mixing and Six-Wave Mixing in a
Four-level Atomic System
　　4.2.1 Interplay Between FWM and SWM
　　4.2.2 Discussion
　4.3 Coexistence of Four-Wave, Six-Wave and Eight-Wave Mixing
Processes in Multi-dressed Atomic Systems
　　4.3.1 Parallel and Nested Dressing Schemes
　　4.3.2 Interplay Among Coexisting FWM, SWM and EWM Processes
　4.4 Controlled Multi-Wave Mixing via Interacting Dark States in a
Five-level System
　　4.4.1 Basic Theory
　　4.4.2 Numerical Results
　　4.4.3 Discussion
　4.5 Polarization Interference of Multi-Wave Mixing in a Confined
Five-level System
　　4.5.1 Basic Theory
　　4.5.2 MWM in Long Cells
　　4.5.3 MWM in Ultra-thin and Micrometer Cells
　　4.5.4 Discussion
　References
5 Enhancement and Suppression in Four-Wave Mixing Processes
　5.1 Interplay among Multi-dressed Four-Wave Mixing Processes
　5.2 Observation of Enhancement and Suppression of Four-Wave Mixing
Processes
　5.3 Controlling Enhancement and Suppression of Four-Wave Mixing
via Polarized Light
　　5.3.1 Theoretical Model and Analysis
　　5.3.2 Experimental Results
　5.4 Enhancing and Suppressing Four-Wave Mixing in
Electronm-genetically Induce Transparency Window References
6 Multi-Wave Mixing Processes in Multi-level Atomic System
　6.1 Modulating Multi-Wave Mixing Processes via Polarizable Dark
States
　6.2 Polarization Spectroscopy of Dressed Four-Wave Mixing in a
Three-level Atomic System
　　6.2.1 Various Nonlinear Susceptibilities for Different
Polarization Schemes
　　6.2.2 Nonlinear Susceptibilities for Zeeman-degenerate System
Interacting with Polarized Fields
　　6.2.3 Third-order Density-matrix Elements in Presence of Dressing
Fields
　6.3 Controlling FWM and SWM in Multi-Zeeman Atomic System with
Electromagnetically Induced Transparency
　　6.3.1 Basic Theory
　　6.3.2 Dual-dressed EIT
　　6.3.3 Four-Wave Mixing
　　6.3.4 Six-Wave Mixing
　References
7 Controlling Spatial Shift and Spltting of Four-Wave Mixing
　7.1 Basic Theory
　7.2 Electromagnetically-induced Spatial Nonlinear Dispersion of
Four-Wave Mixing Beams
　7.3 Spatial Dispersion Induced by Cross-phase Modulation
　7.4 Experimental Demonstration of Optical Switching and Routing
via Four-Wave Mixing Spatial Shift
　　7.4.1 Theoretical Model and Experimental Scheme
　　7.4.2 Optical Switching and Routing via Spatial Shift
　7.5 Controlled Spatial Beamsplitter Using Four-Wave Mixing
Images
　7.6 Spatial Splitting and Intensity Suppression of Four-Wave
Mixing in V-type Three-level Atomic System
　References
8 Spatial Modulation of Four-Wave Mixing Solitons
　8.1 Basic Theory
　　8.1.1 Calculation of Double Dressed Cross-Kerr Nonlinear Index of
Refraction
　　8.1.2 Calculation of Analytical Solution of One-dimensional
Bright and Dark Spatial Solitons
　8.2 Novel Spatial Gap Solitons of Four-Wave Mixing
　8.3 Dipole-mode Spatial Solitons of Four-Wave Mixing
　8.4 Modulated Vortex Solitons of Four-Wave Mixing
　References
Index

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