Thermodynamics and Synchronization in Open Quantum Systems / by Gonzalo Manzano Paule.

Format:

Book

Author/Creator:

Manzano Paule, Gonzalo., Author.

Series:

Springer Theses, Recognizing Outstanding Ph.D. Research, 2190-5053

Language:

English

Subjects (All):

Thermodynamics.

Quantum theory.

Quantum Physics.

Local Subjects:

Thermodynamics.

Quantum Physics.

Physical Description:

1 online resource (424 pages).

Edition:

1st ed. 2018.

Place of Publication:

Cham : Springer International Publishing : Imprint: Springer, 2018.

Summary:

This book explores some of the connections between dissipative and quantum effects from a theoretical point of view. It focuses on three main topics: the relation between synchronization and quantum correlations, the thermodynamical properties of fluctuations, and the performance of quantum thermal machines. Dissipation effects have a profound impact on the behavior and properties of quantum systems, and the unavoidable interaction with the surrounding environment, with which systems continuously exchange information, energy, angular momentum and matter, is ultimately responsible for decoherence phenomena and the emergence of classical behavior. However, there is a wide intermediate regime in which the interplay between dissipative and quantum effects gives rise to a plethora of rich and striking phenomena that has just started to be understood. In addition, the recent breakthrough techniques in controlling and manipulating quantum systems in the laboratory have made this phenomenology accessible in experiments and potentially applicable.

Contents:

Part 1: Introduction to Open Quantum Systems and Quantum Thermodynamics

Basic Concepts

Open Quantum System Dynamics

Quantum Thermodynamics

Part 2: Quantum Synchronization Induced by Dissipation in Many-Body Systems

Transient Synchronization and Quantum Correlations

Noiseless Subsystems and Synchronization

Dissipative Complex Quantum Networks

Part 3: Quantum Fluctuation Theorems and Entropy Production

Fluctuation Theorems for Quantum Maps

Entropy Production Fluctuations in Quantum Process

Simple Applications of the Entropy Production FT’s

Part 4: Quantum Thermal Machines

Thermodynamic Power of the Squeezed Thermal Reservoir.-Performance of Autonomous Quantum Thermal Machines

Part 5: Conclusions

Summary and Outlook.

ISBN:

3-319-93964-5