Verfügbarkeit: Controlling steady-state and dynamical properties of atomic optical bistability

Controlling steady-state and dynamical properties of atomic optical bistability:

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Bibliographische Detailangaben
1. Verfasser:	Joshi, Amitabh 1965- (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; New Jersey World Scientific ©2012
Schlagworte:	SCIENCE / Physics / Optics & Light Optical bistability
Online-Zugang:	FAW01 FAW02 Volltext
Beschreibung:	1 online resource
ISBN:	1283593629 9781283593625 9789814307567 9814307564

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505	8		\|a This book provides a comprehensive introduction to the theoretical and experimental studies of atomic optical bistability and multistability, and their dynamical properties in systems with two- and three-level inhomogeneously-broadened atoms inside an optical cavity. By making use of the modified linear absorption and dispersion, as well as the greatly enhanced nonlinearity in the three-level electromagnetically induced transparency system, the optical bistablity and efficient all-optical switching can be achieved at relatively low laser powers, which can be well controlled and manipulated. Until now, the rapid rate of progress in applications of multilevel systems in cross-disciplinary field has made it difficult to newcomers to the field to obtain a broad overview of this topic. This monograph will serve the purpose
505	8		\|a 1. Introduction. 1.1. Background. 1.2. Nonlinearity in a two-level atomic system. 1.3. Doppler effect in inhomogeneously-broadened atomic systems. 1.4. Optical cavity. 1.5. Controllable linear and nonlinear susceptibilities in three-level atomic systems -- 2. Atomic optical bistability in a two-level system. 2.1. Two-level atoms inside an optical cavity. 2.2. Atomic optical bistability. 2.3. Absorptive atomic optical bistability. 2.4. Dispersive/refractive atomic optical bistability. 2.5. Mixed absorptive-dispersive atomic optical bistability. 2.6. Experimental demonstrations of two-level atomic optical bistability. 2.7. Potential applications of atomic optical bistability -- 3. Three-level atoms as the intracavity medium and atomic optical bistability. 3.1. Three-level atoms as the intracavity medium. 3.2. Atomic optical bistability with three-level atomic system -- 4. Atomic optical multistability. 4.1. Atomic optical multistability: introduction. 4.2. Atomic optical multistability with three-level atoms inside an optical cavity. 4.3. Mixed absorptive and dispersive effects in atomic optical multistability -- 5. Dynamical instability to chaos. 5.1. Simple model. 5.2. Dynamics of a coupled cavity and two-level atomic system. 5.3. Dynamical instabilities in three-level atomic optical bistability. 5.4. Chaotic dynamics in the three-level atomic system -- 6. Controlled all-optical switching. 6.1. All-optical switching. 6.2. All-optical switching in the three-level AOB system. 6.3. Controlling light with light in the three-level AOB system. 6.4. Controlling cavity output with coupling beam frequency -- 7. Dynamical hysteresis and noise-induced behaviors. 7.1. Dynamical hysteresis cycle. 7.2. Stochastic resonance in atomic optical bistability. 7.3. Noise-induced switching between bistable states in a three-level atomic optical bistability system -- 8. Conclusion and outlooks
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650		7	\|a Optical bistability \|2 fast
650		4	\|a Optical bistability
700	1		\|a Xiao, Min \|d 1959- \|e Sonstige \|4 oth
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Datensatz im Suchindex

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author	Joshi, Amitabh 1965-
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contents	This book provides a comprehensive introduction to the theoretical and experimental studies of atomic optical bistability and multistability, and their dynamical properties in systems with two- and three-level inhomogeneously-broadened atoms inside an optical cavity. By making use of the modified linear absorption and dispersion, as well as the greatly enhanced nonlinearity in the three-level electromagnetically induced transparency system, the optical bistablity and efficient all-optical switching can be achieved at relatively low laser powers, which can be well controlled and manipulated. Until now, the rapid rate of progress in applications of multilevel systems in cross-disciplinary field has made it difficult to newcomers to the field to obtain a broad overview of this topic. This monograph will serve the purpose 1. Introduction. 1.1. Background. 1.2. Nonlinearity in a two-level atomic system. 1.3. Doppler effect in inhomogeneously-broadened atomic systems. 1.4. Optical cavity. 1.5. Controllable linear and nonlinear susceptibilities in three-level atomic systems -- 2. Atomic optical bistability in a two-level system. 2.1. Two-level atoms inside an optical cavity. 2.2. Atomic optical bistability. 2.3. Absorptive atomic optical bistability. 2.4. Dispersive/refractive atomic optical bistability. 2.5. Mixed absorptive-dispersive atomic optical bistability. 2.6. Experimental demonstrations of two-level atomic optical bistability. 2.7. Potential applications of atomic optical bistability -- 3. Three-level atoms as the intracavity medium and atomic optical bistability. 3.1. Three-level atoms as the intracavity medium. 3.2. Atomic optical bistability with three-level atomic system -- 4. Atomic optical multistability. 4.1. Atomic optical multistability: introduction. 4.2. Atomic optical multistability with three-level atoms inside an optical cavity. 4.3. Mixed absorptive and dispersive effects in atomic optical multistability -- 5. Dynamical instability to chaos. 5.1. Simple model. 5.2. Dynamics of a coupled cavity and two-level atomic system. 5.3. Dynamical instabilities in three-level atomic optical bistability. 5.4. Chaotic dynamics in the three-level atomic system -- 6. Controlled all-optical switching. 6.1. All-optical switching. 6.2. All-optical switching in the three-level AOB system. 6.3. Controlling light with light in the three-level AOB system. 6.4. Controlling cavity output with coupling beam frequency -- 7. Dynamical hysteresis and noise-induced behaviors. 7.1. Dynamical hysteresis cycle. 7.2. Stochastic resonance in atomic optical bistability. 7.3. Noise-induced switching between bistable states in a three-level atomic optical bistability system -- 8. Conclusion and outlooks
ctrlnum	(OCoLC)1055371988 (DE-599)BVBBV043038201
dewey-full	535.2
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	535 - Light and related radiation
dewey-raw	535.2
dewey-search	535.2
dewey-sort	3535.2
dewey-tens	530 - Physics
discipline	Physik
format	Electronic eBook
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spelling	Joshi, Amitabh 1965- Verfasser aut Controlling steady-state and dynamical properties of atomic optical bistability Amitabh Joshi, Min Xiao Singapore ; New Jersey World Scientific ©2012 1 online resource txt rdacontent c rdamedia cr rdacarrier This book provides a comprehensive introduction to the theoretical and experimental studies of atomic optical bistability and multistability, and their dynamical properties in systems with two- and three-level inhomogeneously-broadened atoms inside an optical cavity. By making use of the modified linear absorption and dispersion, as well as the greatly enhanced nonlinearity in the three-level electromagnetically induced transparency system, the optical bistablity and efficient all-optical switching can be achieved at relatively low laser powers, which can be well controlled and manipulated. Until now, the rapid rate of progress in applications of multilevel systems in cross-disciplinary field has made it difficult to newcomers to the field to obtain a broad overview of this topic. This monograph will serve the purpose 1. Introduction. 1.1. Background. 1.2. Nonlinearity in a two-level atomic system. 1.3. Doppler effect in inhomogeneously-broadened atomic systems. 1.4. Optical cavity. 1.5. Controllable linear and nonlinear susceptibilities in three-level atomic systems -- 2. Atomic optical bistability in a two-level system. 2.1. Two-level atoms inside an optical cavity. 2.2. Atomic optical bistability. 2.3. Absorptive atomic optical bistability. 2.4. Dispersive/refractive atomic optical bistability. 2.5. Mixed absorptive-dispersive atomic optical bistability. 2.6. Experimental demonstrations of two-level atomic optical bistability. 2.7. Potential applications of atomic optical bistability -- 3. Three-level atoms as the intracavity medium and atomic optical bistability. 3.1. Three-level atoms as the intracavity medium. 3.2. Atomic optical bistability with three-level atomic system -- 4. Atomic optical multistability. 4.1. Atomic optical multistability: introduction. 4.2. Atomic optical multistability with three-level atoms inside an optical cavity. 4.3. Mixed absorptive and dispersive effects in atomic optical multistability -- 5. Dynamical instability to chaos. 5.1. Simple model. 5.2. Dynamics of a coupled cavity and two-level atomic system. 5.3. Dynamical instabilities in three-level atomic optical bistability. 5.4. Chaotic dynamics in the three-level atomic system -- 6. Controlled all-optical switching. 6.1. All-optical switching. 6.2. All-optical switching in the three-level AOB system. 6.3. Controlling light with light in the three-level AOB system. 6.4. Controlling cavity output with coupling beam frequency -- 7. Dynamical hysteresis and noise-induced behaviors. 7.1. Dynamical hysteresis cycle. 7.2. Stochastic resonance in atomic optical bistability. 7.3. Noise-induced switching between bistable states in a three-level atomic optical bistability system -- 8. Conclusion and outlooks SCIENCE / Physics / Optics & Light bisacsh Optical bistability fast Optical bistability Xiao, Min 1959- Sonstige oth http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=478645 Aggregator Volltext
spellingShingle	Joshi, Amitabh 1965- Controlling steady-state and dynamical properties of atomic optical bistability This book provides a comprehensive introduction to the theoretical and experimental studies of atomic optical bistability and multistability, and their dynamical properties in systems with two- and three-level inhomogeneously-broadened atoms inside an optical cavity. By making use of the modified linear absorption and dispersion, as well as the greatly enhanced nonlinearity in the three-level electromagnetically induced transparency system, the optical bistablity and efficient all-optical switching can be achieved at relatively low laser powers, which can be well controlled and manipulated. Until now, the rapid rate of progress in applications of multilevel systems in cross-disciplinary field has made it difficult to newcomers to the field to obtain a broad overview of this topic. This monograph will serve the purpose 1. Introduction. 1.1. Background. 1.2. Nonlinearity in a two-level atomic system. 1.3. Doppler effect in inhomogeneously-broadened atomic systems. 1.4. Optical cavity. 1.5. Controllable linear and nonlinear susceptibilities in three-level atomic systems -- 2. Atomic optical bistability in a two-level system. 2.1. Two-level atoms inside an optical cavity. 2.2. Atomic optical bistability. 2.3. Absorptive atomic optical bistability. 2.4. Dispersive/refractive atomic optical bistability. 2.5. Mixed absorptive-dispersive atomic optical bistability. 2.6. Experimental demonstrations of two-level atomic optical bistability. 2.7. Potential applications of atomic optical bistability -- 3. Three-level atoms as the intracavity medium and atomic optical bistability. 3.1. Three-level atoms as the intracavity medium. 3.2. Atomic optical bistability with three-level atomic system -- 4. Atomic optical multistability. 4.1. Atomic optical multistability: introduction. 4.2. Atomic optical multistability with three-level atoms inside an optical cavity. 4.3. Mixed absorptive and dispersive effects in atomic optical multistability -- 5. Dynamical instability to chaos. 5.1. Simple model. 5.2. Dynamics of a coupled cavity and two-level atomic system. 5.3. Dynamical instabilities in three-level atomic optical bistability. 5.4. Chaotic dynamics in the three-level atomic system -- 6. Controlled all-optical switching. 6.1. All-optical switching. 6.2. All-optical switching in the three-level AOB system. 6.3. Controlling light with light in the three-level AOB system. 6.4. Controlling cavity output with coupling beam frequency -- 7. Dynamical hysteresis and noise-induced behaviors. 7.1. Dynamical hysteresis cycle. 7.2. Stochastic resonance in atomic optical bistability. 7.3. Noise-induced switching between bistable states in a three-level atomic optical bistability system -- 8. Conclusion and outlooks SCIENCE / Physics / Optics & Light bisacsh Optical bistability fast Optical bistability
title	Controlling steady-state and dynamical properties of atomic optical bistability
title_auth	Controlling steady-state and dynamical properties of atomic optical bistability
title_exact_search	Controlling steady-state and dynamical properties of atomic optical bistability
title_full	Controlling steady-state and dynamical properties of atomic optical bistability Amitabh Joshi, Min Xiao
title_fullStr	Controlling steady-state and dynamical properties of atomic optical bistability Amitabh Joshi, Min Xiao
title_full_unstemmed	Controlling steady-state and dynamical properties of atomic optical bistability Amitabh Joshi, Min Xiao
title_short	Controlling steady-state and dynamical properties of atomic optical bistability
title_sort	controlling steady state and dynamical properties of atomic optical bistability
topic	SCIENCE / Physics / Optics & Light bisacsh Optical bistability fast Optical bistability
topic_facet	SCIENCE / Physics / Optics & Light Optical bistability
url	http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=478645
work_keys_str_mv	AT joshiamitabh controllingsteadystateanddynamicalpropertiesofatomicopticalbistability AT xiaomin controllingsteadystateanddynamicalpropertiesofatomicopticalbistability

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