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Books on the topic 'Quantum Dissipative Systems'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 March 2023

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1

Quantum dissipative systems. 3rd ed. Singapore: World Scientific, 2008.

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2

Quantum dissipative systems. 4th ed. New Jersey: World Scientific, 2012.

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3

Quantum dissipative systems. Singapore: World Scientific, 1993.

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4

Classical and quantum dissipative systems. London: Imperial College Press, 2005.

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5

Quantum mechanics of non-Hamiltonian and dissipative systems. Amsterdam: Elsevier, 2008.

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6

N, Akhmediev Nail, and Ankiewicz Adrian, eds. Dissipative solitons. Berlin: Springer, 2005.

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7

Lorenzo, Pareschi, and Russo Giovanni, eds. Modelling and numerics of kinetic dissipative systems. Hauppauge, N.Y: Nova Science Publishers, 2005.

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8

Adolfo, Avella, Mancini Ferdinando, and American Institute of Physics, eds. Lectures on the physics of strongly correlated systems XIV: Fourteenth Training Course in the Physics of Strongly Correlated Systems, Vietri sul Mare (Salerno), Italy, 5-16 October 2009. Melville, N.Y: American Institute of Physics, 2010.

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9

Italy) Training Course in the Physics of Strongly Correlated Systems (16th 2011 Vietri sul Mare. Lectures on the physics of strongly correlated systems XVI: Sixteenth Training Course in the Physics of Strongly Correlated Systems, Vietri Sul Mare (Salerno), Italy, 3-14 October 2011. Edited by Avella Adolfo and Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2012.

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10

Training Course in the Physics of Strongly Correlated Systems (12th 2007 Salerno, Italy). Lectures on the physics of strongly correlated systems XII: Twelfth Training Course in the Physics of Strongly Correlated Systems, Salerno, Italy, 1-12 October 2007. Edited by Avella Adolfo and Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2008.

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11

A, Cerdeira H., Guinea López F, and Weiss U, eds. Proceedings of the Adriatico Research Conference on Quantum Fluctuations in Mesoscopic and Macroscopic Systems, Miramare, Trieste, Italy 3-6 July 1990. Singapore: World Scientific, 1991.

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12

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (11th 2006 Salerno, Italy). Lectures on the physics of strongly correlated systems XI: Eleventh Training Course in the Physics of Strongly Correlated Systems, Salerno, Italy, 2-13 October 2006. Edited by Avella Adolfo, Mancini Ferdinando, and American Institute of Physics. Melville, N.Y: American Institute of Physics, 2007.

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13

Clos, Govinda. Trapped atomic ions for fundamental studies of closed and open quantum systems. Freiburg: Universität, 2017.

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14

Weiss, Ulrich. Quantum Dissipative Systems. 5th ed. World Scientific, 2021. http://dx.doi.org/10.1142/12402.

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15

Quantum Dissipative Systems. 2nd ed. World Scientific Publishing Company, 1999.

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16

Weiss, U. Quantum Dissipative Systems. World Scientific Publishing Co Pte Ltd, 2021.

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17

Quantum Dissipative Systems. 2nd ed. World Scientific Publishing Company, 1999.

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18

Weiss, U. Quantum Dissipative Systems. World Scientific Publishing Co Pte Ltd, 2021.

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19

Razavy, Mohsen. Classical And Quantum Dissipative Systems. Imperial College Press, 2006.

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20

Razavy, Mohsen. Classical And Quantum Dissipative Systems. Imperial College Press, 2006.

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21

Tarasov, Vasily. Quantum Mechanics of Non-Hamiltonian and Dissipative Systems. Elsevier Science & Technology Books, 2008.

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22

Clemens, James Peter. Nonclassical effects in strongly coupled dissipative quantum systems. 1999.

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23

Quantum Mechanics of Non-Hamiltonian and Dissipative Systems. Elsevier, 2008. http://dx.doi.org/10.1016/s1574-6917(07)x0002-3.

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24

Makarov, Konstantin A., and Eduard Tsekanovskii. Mathematics of Open Quantum Systems: Dissipative and Non-Unitary Representations and Quantum Measurements. World Scientific Publishing Co Pte Ltd, 2022.

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25

Gadomski, Adam, ed. Dissipative, Entropy-Production Systems across Condensed Matter and Interdisciplinary Classical VS. Quantum Physics. MDPI, 2022. http://dx.doi.org/10.3390/books978-3-0365-5276-7.

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26

Plank, William. The Quantum Nietzsche: The Will to Power and the Nature of Dissipative Systems. Writers Club Press, 2002.

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27

Modeling And Numerics of Kinetic Dissipative Systems. Nova Science Publishers, 2006.

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28

Kavokin, Alexey V., Jeremy J. Baumberg, Guillaume Malpuech, and Fabrice P. Laussy. Quantum description of light–matter coupling. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198782995.003.0005.

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In this chapter we study with the tools developed in Chapter 3 the basic models that are the foundations of light–matter interaction. We start with Rabi dynamics, then consider the optical Bloch equations that add phenomenologically the lifetime of the populations. As decay and pumping are often important, we cover the Lindblad form, a correct, simple and powerful way to describe various dissipation mechanisms. Then we go to a full quantum picture, quantizing also the optical field. We first investigate the simpler coupling of bosons and then culminate with the Jaynes–Cummings model and its solution to the quantum interaction of a two-level system with a cavity mode. Finally, we investigate a broader family of models where the material excitation operators differ from the ideal limits of a Bose and a Fermi field.
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29

(Editor), Adolpho Avella, and Ferdinando Mancini (Editor), eds. Lectures on the Physics of Highly Correlated Electron Systems VII: Seventh Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (AIP Conference Proceedings). American Institute of Physics, 2003.

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30

(Editor), Adolfo Avella, and Ferdinando Mancini (Editor), eds. Lectures on the Physics of Highly Correlated Electron Systems X: Tenth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors ... / Materials Physics and Applications). American Institute of Physics, 2006.

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31

Tiwari, Sandip. Semiconductor Physics. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198759867.001.0001.

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A graduate-level text, Semiconductor physics: Principles, theory and nanoscale covers the central topics of the field, together with advanced topics related to the nanoscale and to quantum confinement, and integrates the understanding of important attributes that go beyond the conventional solid-state and statistical expositions. Topics include the behavior of electrons, phonons and photons; the energy and entropic foundations; bandstructures and their calculation; the behavior at surfaces and interfaces, including those of heterostructures and their heterojunctions; deep and shallow point perturbations; scattering and transport, including mesoscale behavior, using the evolution and dynamics of classical and quantum ensembles from a probabilistic viewpoint; energy transformations; light-matter interactions; the role of causality; the connections between the quantum and the macroscale that lead to linear responses and Onsager relationships; fluctuations and their connections to dissipation, noise and other attributes; stress and strain effects in semiconductors; properties of high permittivity dielectrics; and remote interaction processes. The final chapter discusses the special consequences of the principles to the variety of properties (consequences of selection rules, for example) under quantum-confined conditions and in monolayer semiconductor systems. The text also bring together short appendices discussing transform theorems integral to this study, the nature of random processes, oscillator strength, A and B coefficients and other topics important for understanding semiconductor behavior. The text brings the study of semiconductor physics to the same level as that of the advanced texts of solid state by focusing exclusively on the equilibrium and off-equilibrium behaviors important in semiconductors.
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32

(Editor), W. Weber, J. M. Rabaey (Editor), and E. Aarts (Editor), eds. Ambient Intelligence. Springer, 2005.

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