scholarly journals The Second Law, Maxwell's Demon, and Work Derivable from Quantum Heat Engines

2004 ◽  
Vol 93 (14) ◽  
Author(s):  
Tien D. Kieu
Keyword(s):  
Second Law ◽  
Maxwell’S Demon ◽  
Heat Engines ◽  
Maxwell's Demon ◽  
Quantum Heat Engines

scholarly journals The maximum efficiency of nano heat engines depends on more than temperature

Quantum ◽  
2019 ◽  
Vol 3 ◽  
pp. 177 ◽  
Author(s):  
Mischa P. Woods ◽  
Nelly Huei Ying Ng ◽  
Stephanie Wehner
Keyword(s):  
Second Law Of Thermodynamics ◽  
Maximum Efficiency ◽  
Second Law ◽  
Single Shot ◽  
Free Energies ◽  
Heat Engines ◽  
A Value ◽  
Quantum Protocols ◽  
Additional Constraints ◽  
Quantum Heat Engines

Sadi Carnot's theorem regarding the maximum efficiency of heat engines is considered to be of fundamental importance in thermodynamics. This theorem famously states that the maximum efficiency depends only on the temperature of the heat baths used by the engine, but not on the specific structure of baths. Here, we show that when the heat baths are finite in size, and when the engine operates in the quantum nanoregime, a revision to this statement is required. We show that one may still achieve the Carnot efficiency, when certain conditions on the bath structure are satisfied; however if that is not the case, then the maximum achievable efficiency can reduce to a value which is strictly less than Carnot. We derive the maximum efficiency for the case when one of the baths is composed of qubits. Furthermore, we show that the maximum efficiency is determined by either the standard second law of thermodynamics, analogously to the macroscopic case, or by the non increase of the max relative entropy, which is a quantity previously associated with the single shot regime in many quantum protocols. This relative entropic quantity emerges as a consequence of additional constraints, called generalized free energies, that govern thermodynamical transitions in the nanoregime. Our findings imply that in order to maximize efficiency, further considerations in choosing bath Hamiltonians should be made, when explicitly constructing quantum heat engines in the future. This understanding of thermodynamics has implications for nanoscale engineering aiming to construct small thermal machines.

scholarly journals Maxwell’s Demon in Quantum Mechanics

Entropy ◽  
2020 ◽  
Vol 22 (3) ◽  
pp. 269
Author(s):  
Orly Shenker ◽  
Meir Hemmo
Keyword(s):  
Quantum Mechanics ◽  
Thought Experiment ◽  
Classical Mechanics ◽  
Second Law Of Thermodynamics ◽  
Quantum Mechanical ◽  
Second Law ◽  
Arrow Of Time ◽  
Maxwell’S Demon ◽  
Counter Example ◽  
Maxwell's Demon

Maxwell’s Demon is a thought experiment devised by J. C. Maxwell in 1867 in order to show that the Second Law of thermodynamics is not universal, since it has a counter-example. Since the Second Law is taken by many to provide an arrow of time, the threat to its universality threatens the account of temporal directionality as well. Various attempts to “exorcise” the Demon, by proving that it is impossible for one reason or another, have been made throughout the years, but none of them were successful. We have shown (in a number of publications) by a general state-space argument that Maxwell’s Demon is compatible with classical mechanics, and that the most recent solutions, based on Landauer’s thesis, are not general. In this paper we demonstrate that Maxwell’s Demon is also compatible with quantum mechanics. We do so by analyzing a particular (but highly idealized) experimental setup and proving that it violates the Second Law. Our discussion is in the framework of standard quantum mechanics; we give two separate arguments in the framework of quantum mechanics with and without the projection postulate. We address in our analysis the connection between measurement and erasure interactions and we show how these notions are applicable in the microscopic quantum mechanical structure. We discuss what might be the quantum mechanical counterpart of the classical notion of “macrostates”, thus explaining why our Quantum Demon setup works not only at the micro level but also at the macro level, properly understood. One implication of our analysis is that the Second Law cannot provide a universal lawlike basis for an account of the arrow of time; this account has to be sought elsewhere.

scholarly journals Entropy and Maxwell’s Demon: The Degree of Disorderliness in Concept

2021 ◽  
Vol 01 (1) ◽  
pp. 14-18
Author(s):  
Bijan K. Paul ◽  
Keyword(s):  
Present Article ◽  
Thought Experiment ◽  
Second Law Of Thermodynamics ◽  
Second Law ◽  
Maxwell’S Demon ◽  
Maxwell's Demon

The present article is motivated toward delving into the concept of entropy, a fundamental consequence of the second law of thermodynamics with particular emphasis on the thought experiment by James C. Maxwell, famously known as the “Maxwell’s demon”, which in turn enables our visualization of the connection of entropy with information.

Maxwell’s demon and interactionism

2019 ◽  
Vol 17 (2) ◽  
pp. 161-171
Author(s):  
Dejan Dimitrijevic
Keyword(s):  
Mental Causation ◽  
Statistical Physics ◽  
Second Law Of Thermodynamics ◽  
Second Law ◽  
Statistical Nature ◽  
Maxwell’S Demon ◽  
Maxwell's Demon ◽  
The Mind ◽  
The Relationship

Maxwell's demon is an imaginary being invented a century and a half ago by James Clarke Maxwell in order to illustrate the statistical nature of the Second Law of thermodynamics. It helped us reach a better understanding not only of that law but also of the relationship between statistical physics and thermodynamics. Since the 1910?s it has caused a flood of papers of scientists who have tried to save the Second Law from the threat of the demon and hence preclude the possibility of perpetuum mobile of the second kind. Nowadays, it helps us better understand the possibility of constructing an interactionist model of mental causation manifested through the violation of the Second Law by the mind.

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