scholarly journals Fluctuation Relations and Nonequilibrium Thermodynamics in Classical and Quantum Systems

2020 ◽  
Keyword(s):  
Nonequilibrium Thermodynamics ◽  
Quantum Systems ◽  
Fluctuation Relations

scholarly journals MICROSCOPIC QUANTUM MECHANICAL FOUNDATION OF FOURIER'S LAW

2006 ◽  
Vol 20 (29) ◽  
pp. 4855-4883 ◽  
Author(s):  
MATHIAS MICHEL ◽  
JOCHEN GEMMER ◽  
GÜNTER MAHLER
Keyword(s):  
Nonequilibrium Thermodynamics ◽  
Quantum Systems ◽  
Quantum Mechanical ◽  
Electronic Circuits ◽  
Quantum Thermodynamics ◽  
Theoretical Understanding ◽  
Mass Magnetization ◽  
Small Quantum ◽  
Computer Chips ◽  
Recent Developments

Besides the growing interest in old concepts such as temperature and entropy at the nanoscale, theories of relaxation and transport have recently regained a lot of attention. With the electronic circuits and computer chips getting smaller and smaller, a fresh look on the equilibrium and nonequilibrium thermodynamics at small length scales far below the thermodynamic limit, i.e. on the theoretical understanding of original macroscopic processes, e.g. transport of energy, heat, charge, mass, magnetization, etc., should be appropriate. Only from the foundations of a theory its limits of applicability may be inferred. This review tries to give an overview on the background and recent developments in the field of nonequilibrium quantum thermodynamics, focusing on the transport of heat in small quantum systems.

scholarly journals Symmetry-induced fluctuation relations in open quantum systems

2021 ◽  
Vol 104 (1) ◽  
Author(s):  
Stefano Marcantoni ◽  
Carlos Pérez-Espigares ◽  
Juan P. Garrahan
Keyword(s):  
Open Quantum Systems ◽  
Quantum Systems ◽  
Open Quantum ◽  
Fluctuation Relations

scholarly journals A Green’s function perspective on the nonequilibrium thermodynamics of open quantum systems strongly coupled to baths

2021 ◽  
Author(s):  
Nicolas Bergmann ◽  
Michael Galperin
Keyword(s):  
Green’S Function ◽  
Quantum Transport ◽  
Green's Function ◽  
Nonequilibrium Thermodynamics ◽  
Open Quantum Systems ◽  
Quantum Systems ◽  
Thermodynamic Consideration ◽  
Strongly Coupled ◽  
Open Quantum ◽  
Weakly Coupled

AbstractWe give a nonequilibrium Green’s function (NEGF) perspective on thermodynamics formulations for open quantum systems that are strongly coupled to baths. A scattering approach implying thermodynamic consideration of a supersystem (system plus baths) that is weakly coupled to external superbaths is compared with the consideration of thermodynamics of a system that is strongly coupled to its baths. We analyze both approaches from the NEGF perspective and argue that the latter yields a possibility of thermodynamic formulation consistent with a dynamical (quantum transport) description.

scholarly journals Experimental test of fluctuation relations for driven open quantum systems with an NV center

2021 ◽  
Author(s):  
Santiago Hernández Gómez ◽  
Nicolas Staudenmaier ◽  
Michele Campisi ◽  
Nicole Fabbri
Keyword(s):  
Experimental Test ◽  
Open Quantum Systems ◽  
Quantum Systems ◽  
Open Quantum ◽  
Fluctuation Relations ◽  
Nv Center

Nonequilibrium thermodynamics and fluctuation relations for small systems

2014 ◽  
Vol 23 (7) ◽  
pp. 070501 ◽  
Author(s):  
Liang Cao ◽  
Pu Ke ◽  
Li-Yan Qiao ◽  
Zhi-Gang Zheng
Keyword(s):  
Nonequilibrium Thermodynamics ◽  
Small Systems ◽  
Fluctuation Relations

scholarly journals Emergence of energy-avoiding and energy-seeking behaviors in nonequilibrium dissipative quantum systems

2022 ◽  
Vol 5 (1) ◽  
Author(s):  
Thiago Werlang ◽  
Maurício Matos ◽  
Frederico Brito ◽  
Daniel Valente
Keyword(s):  
Complex Systems ◽  
Master Equation ◽  
Thermal Gradient ◽  
Nonequilibrium Thermodynamics ◽  
Quantum Systems ◽  
Thermal Gradients ◽  
Living Matter ◽  
Self Organized ◽  
Dissipative Quantum Systems ◽  
Adaptive Shifts

AbstractA longstanding challenge in nonequilibrium thermodynamics is to predict the emergence of self-organized behaviors and functionalities typical of living matter. Despite the progress with classical complex systems, it remains far from obvious how to extrapolate these results down to the quantum scale. Here, we employ the paradigmatic master equation framework to establish that some lifelike behaviors and functionalities can indeed emerge in elementary dissipative quantum systems driven out of equilibrium. Specifically, we find both energy-avoiding (low steady dissipation) and energy-seeking behaviors (high steady dissipation), as well as self-adaptive shifts between these modes, in generic few-level systems. We also find emergent functionalities, namely, a self-organized thermal gradient in the system’s environment (in the energy-seeking mode) and an active equilibration against thermal gradients (in the energy-avoiding mode). Finally, we discuss the possibility that our results could be related to the concept of dissipative adaptation.

scholarly journals Coherent fluctuation relations: from the abstract to the concrete

Quantum ◽  
2019 ◽  
Vol 3 ◽  
pp. 124 ◽  
Author(s):  
Zoë Holmes ◽  
Sebastian Weidt ◽  
David Jennings ◽  
Janet Anders ◽  
Florian Mintert
Keyword(s):  
Quantum Systems ◽  
Theoretic Approach ◽  
Information Theoretic ◽  
Trapped Ion ◽  
Fluctuation Relations ◽  
Cat States ◽  
Information Theoretic Approach ◽  
Abstract Framework ◽  
Autonomous Evolution ◽  
Coherent Fluctuation

Recent studies using the quantum information theoretic approach to thermodynamics show that the presence of coherence in quantum systems generates corrections to classical fluctuation theorems. To explicate the physical origins and implications of such corrections, we here convert an abstract framework of an autonomous quantum Crooks relation into quantum Crooks equalities for well-known coherent, squeezed and cat states. We further provide a proposal for a concrete experimental scenario to test these equalities. Our scheme consists of the autonomous evolution of a trapped ion and uses a position dependent AC Stark shift.

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