Quantum control of multi-wave mixing / Yanpeng Zhang, Feng Wen, and Min Xiao.

Format:

Book

Author/Creator:

Zhang, Yanpeng.

Contributor:

Wen, Feng.

Xiao, Min.

Gao deng jiao yu chu ban she, issuing body.

Language:

English

Subjects (All):

Nonlinear optics.

Quantum theory.

Physical Description:

1 online resource (353 p.)

Edition:

1st ed.

Place of Publication:

Weinheim : Wiley-VCH : Higher Education Press, c2013.

Language Note:

English

Summary:

Multi-wave mixing gives rise to new frequency components due to the interaction of light signals with a suitable nonlinear medium. In this book a systematic framework for the control of these processes is used to lead readers through a plethora of related effects and techniques.

Contents:

Quantum Control of Multi-Wave Mixing; Contents; Preface; 1 Introduction; 1.1 Suppression and Enhancement Conditions of the FWM Process; 1.1.1 Dressed State Theory; 1.1.2 Dark-State Theory in 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 Nonlinearity1.5 MWM with Rydberg Blockade; 1.6 Summary; References; 2 MWM Quantum Control via 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 Numerical Results and Discussion2.3.3.1 Five-Dressing FWM; 2.3.3.2 Four-Dressing SWM; 2.3.3.3 Four-Dressing EWM; 2.3.3.4 Absorption and Dispersion in 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 Conclusion; References; 3 Controllable Autler-Townes Splitting of MWM Process via Dark State; 3.1 Measurement of ac-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 Splitting in FWM

3.2.1 Basic Theory3.2.2 Experimental Results; 3.3 Observation of AT Splitting in 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 Enhancing and Suppressing FWM in EIT Window; 4.1.1 Theory and Experimental Results; 4.1.2 Experiment and Result; 4.1.3 Conclusion; 4.2 Cascade Dressing Interaction of FWM Image; 4.2.1 Theoretical Model and Experimental Scheme; 4.2.2 Cascade Dressing Interaction; 4.2.3 Conclusion; 4.3 Multi-Dressing Interaction of FWM

4.3.1 Theoretical Model4.3.2 Experimental Result; 4.3.2.1 Single-Dressed DFWM; 4.3.2.2 Doubly-Dressed DFWM; 4.3.2.3 Triply-Dressed DFWM; 4.3.2.4 Power Switching of Enhancement and Suppression; 4.4 Enhancement and Suppression of Two Coexisting SWM Processes; 4.4.1 Theoretical Model and Experimental Scheme; 4.4.2 Experimental Results; 4.4.3 Conclusion; References; 5 Controllable Polarization of MWM Process via Dark State; 5.1 Enhancement and Suppression of FWM via Polarized Light; 5.1.1 Theoretical Model and Analysis; 5.1.2 Experimental Results; 5.1.3 Conclusion

5.2 Polarization-Controlled Spatial Splitting of FWM

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

ISBN:

9783527672387

3527672389

9783527672363

3527672362

9783527672394

3527672397

OCLC:

854433825