Quantum Control of MultiWave Mixing
定 價(jià):79 元
- 作者:張彥鵬����,問(wèn)峰,肖敏 著
- 出版時(shí)間:2014/1/1
- ISBN:9787040391336
- 出 版 社:高等教育出版社
- 中圖法分類:TN2
- 頁(yè)碼:337
- 紙張:膠版紙
- 版次:1
- 開本:16開
《多波混頻量子控制(英文版)》討論基于原子相干誘導(dǎo)的多能級(jí)原子系統(tǒng)中多波混頻過(guò)程頻率�����、時(shí)域與空域的相互作用����,涉及七個(gè)方面的內(nèi)容:多能級(jí)多色激光相干產(chǎn)生的共存多波混頻及相互作用;電磁感應(yīng)透明介質(zhì)中四波混頻與六波混頻信號(hào)的Autler Townes分裂及抑制或增強(qiáng)過(guò)程��;Zeeman能級(jí)間多波混頻過(guò)程在頻域和空域的調(diào)制�;自由空間和環(huán)形腔中共存多波混頻之間的關(guān)聯(lián)以及糾纏過(guò)程;超窄帶熒光和共存多波混頻信號(hào)的噪聲關(guān)聯(lián)�����;電磁感應(yīng)光柵所形成的光子帶隙中多波混頻信號(hào)的空間過(guò)程�����,包括空間干擾���、矢量孤子���、Talbot效應(yīng)等;利用多波混頻空間效應(yīng)設(shè)計(jì)的全光開關(guān)����、路由器、信號(hào)波分復(fù)用器等非線性光子器件�����。
Preface
1 Introduction
1.1 Suppression and Enhancement Conditions of the FWM Process
1.1.1 Dressed State Theory
1.1.2 Dark-State The oryin MWM Processes
1.1.3 Suppression and Enhancement Conditions
1.2 Fluorescence in MWM
1.3 MWM Process in Ring Optical Cavity
1.3.1 High-Order Cavity Mode Splitting with MWM Process
1.3.2 Squeezed Noise Power with MWM
1.3.3 Three-Mode Continuous-Variable Entanglement with MWM
1.4 Photonic Band Gap
1.4.1 Periodic Energy Level
1.4.2 Method of Transfer Matrix
1.4.3 Nonlinear Talbot Effect Preface
1 Introduction
1.1 Suppression and Enhancement Conditions of the FWM Process
1.1.1 Dressed State Theory
1.1.2 Dark-State The oryin MWM Processes
1.1.3 Suppression and Enhancement Conditions
1.2 Fluorescence in MWM
1.3 MWM Process in Ring Optical Cavity
1.3.1 High-Order Cavity Mode Splitting with MWM Process
1.3.2 Squeezed Noise Power with MWM
1.3.3 Three-Mode Continuous-Variable Entanglement with MWM
1.4 Photonic Band Gap
1.4.1 Periodic Energy Level
1.4.2 Method of Transfer Matrix
1.4.3 Nonlinear Talbot Effect
1.4.4 Third- and Fifth-Order Nonlinearity
1.5 MWM with Rydberg Blockade
1.6 Summary
References
2 MWM Quantum Controlvia EIT
2.1 Interference of Three MWM via EIT
2.1.1 Experiment Setup
2.1.2 Basic Theory
2.1.3 Results and Discussions
2.1.4 Conclusion
2.2 Observation of EWM via EIT
2.2.1 Basic Theory
2.2.2 Experimental Results
2.2.3 Conclusion
2.3 Controlled MWM via Interacting Dark States
2.3.1 Basic Theory
2.3.2 Multi-Wave Mixing (MWM)
2.3.2.1 Four-Wave Mixing (FWM)
2.3.2.2 Four-Dressing SWM
2.3.2.3 Four-Dressing EWM
2.3.2.4 Four-Dressing EIT
2.3.3 NumericalResults and Discussion
2.3.3.1 Five-Dressing FWM
2.3.3.2 Four-Dressing SWM
2.3.3.3 Four-Dressing EWM
2.3.3.4 Absorption and Dispersionin the Four-Dressing EIT System
2.3.4 Discussion and Conclusion
2.4 Observation of Dressed Odd-Order MWM
2.4.1 Basic Theory and Experimental Scheme
2.4.2 Dressed Odd-Order MWM
2.4.3 COiticlusion
References
3 Controllable Autler-Townes Splitting of MWM Process via Dark State
3.1 Measurement ofac-Stark Shift via FWM
3.1.1 Experiment and Basic Theory
3.1.2 Experiment and Result
3.1.3 Conclusion
3.2 Evidence of AT Splittingin FWM
3.2.1 Basic Theory
3.2.2 Experimental Results
3.3 Observation of AT Splittingin SWM
3.3.1 Theoretical Model and Experimental Scheme
3.3.2 Experiment and Result
3.3.3 Conclusion
References
4 Controllable Enhancement and Suppression of MWM Process via Dark State
4.1 Enhanang and Suppressing FWM in EIT Window
4.1.1 Theory and ExperimentalResults
4.1.2 Experiment and Result
4.1.3 Conclusion
4.2 Cascade Dressing Interaction of FWM Jmage
4.2.1 Theoretical Modeland Experimental Scheme
4.2.2 Cascade Dressinglnteraction
4.2.3 Conclusion
4.3 Multi-Dressing Interaction of FWM
4.3.1 Theoretical Model
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5 Controllable Polarization of MWM Process via Dark State
6 Exploring Nonclassical Properties of MWM Process
7 Coherent Modulation of Photonic Band Gap in FWM Process
8 Optical Routing and Space Demultiplexer of MWM Process
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