Quantum fuel with multilevel atomic coherence for ultrahigh specific work in a photonic Carnot engine

Deniz Türkpençe, Özgür E. Müstecaplloʇlu

Araştırma sonucu: ???type-name???Makalebilirkişi

64 Atıf (Scopus)

Özet

We investigate scaling of work and efficiency of a photonic Carnot engine with a number of quantum coherent resources. Specifically, we consider a generalization of the "phaseonium fuel" for the photonic Carnot engine, which was first introduced as a three-level atom with two lower states in a quantum coherent superposition by M. O. Scully, M. Suhail Zubairy, G. S. Agarwal, and H. Walther [Science 299, 862 (2003)SCIEAS0036-807510.1126/science.1078955], to the case of N+1 level atoms with N coherent lower levels. We take into account atomic relaxation and dephasing as well as the cavity loss and derive a coarse-grained master equation to evaluate the work and efficiency analytically. Analytical results are verified by microscopic numerical examination of the thermalization dynamics. We find that efficiency and work scale quadratically with the number of quantum coherent levels. Quantum coherence boost to the specific energy (work output per unit mass of the resource) is a profound fundamental difference of quantum fuel from classical resources. We consider typical modern resonator set ups and conclude that multilevel phaseonium fuel can be utilized to overcome the decoherence in available systems. Preparation of the atomic coherences and the associated cost of coherence are analyzed and the engine operation within the bounds of the second law is verified. Our results bring the photonic Carnot engines much closer to the capabilities of current resonator technologies.

Orijinal dilİngilizce
Makale numarası012145
DergiPhysical Review E
Hacim93
Basın numarası1
DOI'lar
Yayın durumuYayınlandı - 27 Oca 2016
Harici olarak yayınlandıEvet

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Publisher Copyright:
© 2016 American Physical Society.

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