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Kenkre, V. M. (Nitant).

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Interplay of quantum mechanics and nonlinearity = understanding small-system dynamics of the discrete nonlinear schrodinger equation /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Interplay of quantum mechanics and nonlinearity/ by V. M. (Nitant) Kenkre.
Reminder of title:	understanding small-system dynamics of the discrete nonlinear schrodinger equation /
Author:	Kenkre, V. M. (Nitant).
Published:	Cham :Springer International Publishing : : 2022.,
Description:	xxvi, 310 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Chapter 1. The Discrete Nonlinear Schrodinger Equation and the Two-State System (Dimer) -- Chapter 2. Dimer Solutions, Mobility Reduction, and Neutron Scattering -- Chapter 3. Initial Delocalization, Phase-Nonlinearity Interplay, and Fluorescence Depolarization -- Chapter 4. What Polarons Owe to their Harmonic Origins -- Chapter 5. Static Energy Mismatch in the Nonlinear Dimer: Nondegeneracy -- Chapter 6. Extended Systems with Global Interactions, and Nonlinear Trapping -- Chapter 7. Slow Relaxation: the Nonadiabatic Nonlinear Dimer -- Chapter 8. Thermal Effects: Phase-Space and Langevin Formulations -- Chapter 9. Microscopic Origin Issues about the DNLSE for Polarons -- Chapter 10. Bose-Einstein Condensate Tunneling: the Gross-Pitaevskii Equation -- Chapter 11. Miscellaneous Topics and Summary of the Book.
Contained By:	Springer Nature eBook
Subject:	Gross-Pitaevskii equations. -
Online resource:	https://doi.org/10.1007/978-3-030-94811-5
ISBN:	9783030948115

Interplay of quantum mechanics and nonlinearity = understanding small-system dynamics of the discrete nonlinear schrodinger equation /
Kenkre, V. M. (Nitant).

Interplay of quantum mechanics and nonlinearityunderstanding small-system dynamics of the discrete nonlinear schrodinger equation /[electronic resource] :by V. M. (Nitant) Kenkre. - Cham :Springer International Publishing :2022. - xxvi, 310 p. :ill. (some col.), digital ;24 cm. - Lecture notes in physics,v. 9971616-6361 ;. - Lecture notes in physics ;v. 997..

Chapter 1. The Discrete Nonlinear Schrodinger Equation and the Two-State System (Dimer) -- Chapter 2. Dimer Solutions, Mobility Reduction, and Neutron Scattering -- Chapter 3. Initial Delocalization, Phase-Nonlinearity Interplay, and Fluorescence Depolarization -- Chapter 4. What Polarons Owe to their Harmonic Origins -- Chapter 5. Static Energy Mismatch in the Nonlinear Dimer: Nondegeneracy -- Chapter 6. Extended Systems with Global Interactions, and Nonlinear Trapping -- Chapter 7. Slow Relaxation: the Nonadiabatic Nonlinear Dimer -- Chapter 8. Thermal Effects: Phase-Space and Langevin Formulations -- Chapter 9. Microscopic Origin Issues about the DNLSE for Polarons -- Chapter 10. Bose-Einstein Condensate Tunneling: the Gross-Pitaevskii Equation -- Chapter 11. Miscellaneous Topics and Summary of the Book.

This book presents an in-depth study of the discrete nonlinear Schrodinger equation (DNLSE), with particular emphasis on spatially small systems that permit analytic solutions. In many quantum systems of contemporary interest, the DNLSE arises as a result of approximate descriptions despite the fundamental linearity of quantum mechanics. Such scenarios, exemplified by polaron physics and Bose-Einstein condensation, provide application areas for the theoretical tools developed in this text. The book begins with an introduction of the DNLSE illustrated with the dimer, development of fundamental analytic tools such as elliptic functions, and the resulting insights into experiment that they allow. Subsequently, the interplay of the initial quantum phase with nonlinearity is studied, leading to novel phenomena with observable implications in fields such as fluorescence depolarization of stick dimers, followed by analysis of more complex and/or larger systems. Specific examples analyzed in the book include the nondegenerate nonlinear dimer, nonlinear trapping, rotational polarons, and the nonadiabatic nonlinear dimer. Phenomena treated include strong carrier-phonon interactions and Bose-Einstein condensation. This book is aimed at researchers and advanced graduate students, with chapter summaries and problems to test the reader's understanding, along with an extensive bibliography. The book will be essential reading for researchers in condensed matter and low-temperature atomic physics, as well as any scientist who wants fascinating insights into the role of nonlinearity in quantum physics.

ISBN: 9783030948115

Standard No.: 10.1007/978-3-030-94811-5doiSubjects--Topical Terms:

2139587
Gross-Pitaevskii equations.

LC Class. No.: QC174.26.W28 / K46 2022

Dewey Class. No.: 530.124

Interplay of quantum mechanics and nonlinearity = understanding small-system dynamics of the discrete nonlinear schrodinger equation /
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245 1 0 $a Interplay of quantum mechanics and nonlinearity $h [electronic resource] : $b understanding small-system dynamics of the discrete nonlinear schrodinger equation / $c by V. M. (Nitant) Kenkre.
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505 0 $a Chapter 1. The Discrete Nonlinear Schrodinger Equation and the Two-State System (Dimer) -- Chapter 2. Dimer Solutions, Mobility Reduction, and Neutron Scattering -- Chapter 3. Initial Delocalization, Phase-Nonlinearity Interplay, and Fluorescence Depolarization -- Chapter 4. What Polarons Owe to their Harmonic Origins -- Chapter 5. Static Energy Mismatch in the Nonlinear Dimer: Nondegeneracy -- Chapter 6. Extended Systems with Global Interactions, and Nonlinear Trapping -- Chapter 7. Slow Relaxation: the Nonadiabatic Nonlinear Dimer -- Chapter 8. Thermal Effects: Phase-Space and Langevin Formulations -- Chapter 9. Microscopic Origin Issues about the DNLSE for Polarons -- Chapter 10. Bose-Einstein Condensate Tunneling: the Gross-Pitaevskii Equation -- Chapter 11. Miscellaneous Topics and Summary of the Book.
520 $a This book presents an in-depth study of the discrete nonlinear Schrodinger equation (DNLSE), with particular emphasis on spatially small systems that permit analytic solutions. In many quantum systems of contemporary interest, the DNLSE arises as a result of approximate descriptions despite the fundamental linearity of quantum mechanics. Such scenarios, exemplified by polaron physics and Bose-Einstein condensation, provide application areas for the theoretical tools developed in this text. The book begins with an introduction of the DNLSE illustrated with the dimer, development of fundamental analytic tools such as elliptic functions, and the resulting insights into experiment that they allow. Subsequently, the interplay of the initial quantum phase with nonlinearity is studied, leading to novel phenomena with observable implications in fields such as fluorescence depolarization of stick dimers, followed by analysis of more complex and/or larger systems. Specific examples analyzed in the book include the nondegenerate nonlinear dimer, nonlinear trapping, rotational polarons, and the nonadiabatic nonlinear dimer. Phenomena treated include strong carrier-phonon interactions and Bose-Einstein condensation. This book is aimed at researchers and advanced graduate students, with chapter summaries and problems to test the reader's understanding, along with an extensive bibliography. The book will be essential reading for researchers in condensed matter and low-temperature atomic physics, as well as any scientist who wants fascinating insights into the role of nonlinearity in quantum physics.
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