Work extraction in the spin-boson model

Allahverdyan, Armen E.; Gracia, Raquel; Nieuwenhuizen, Th. M.

doi:10.1103/physreve.71.046106

Cited by 65 publications

(44 citation statements)

References 71 publications

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“…These systems can operate in strokes [3,4,8,9], or continuously [5][6][7]. A thermodynamic framework similar to that of Alicki but which incorporates a different dissipative mechanism was presented in [13]. Other formalisms for partitioning energy into work and heat but without explicitly resorting to system-reservoir interactions include that of Allahverdyan and coworkers [14,15], and that of Quan et al [16,17].…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic output of single-atom quantum optical amplifiers and their phase-space fingerprint

2017

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Dissipation tends to wash out dynamical features observed at early evolution times. In this paper we analyze a resonant single-atom two-photon quantum optical amplifier both dynamically and thermodynamically. A detailed thermodynamic balance shows that the non-linear amplifier is thermodynamically equivalent to the linear amplifier discussed in Ref. [1]. However, by calculating the Wigner quasi-probability distribution for various initial field states, we show that unique quantum features in optical phase space, absent from the linear amplifier, are maintained for extended times. These features are related to the discrete nature of the two-photon matter-field interaction, and fingerprint the initial field state at thermodynamic times.

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Section: Introductionmentioning

confidence: 99%

Thermodynamic output of single-atom quantum optical amplifiers and their phase-space fingerprint

2017

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“…We must now assume ω(t) ≥ 0 in order to have a meaningful real quantity. The "minimal work principle" [43], establishes that H(t) ≥ E ad (t) provided that the initial state is passive (i.e., the initial density matrix is diagonal in the energy representation and satisfies P n (0) ≥ P n+1 (0)) and no level-crossings occur. We shall restrict this section to the ground state |ψ 0 as a simple passive state.…”

Section: Non-adiabatic Energymentioning

confidence: 99%

Transient Particle Energies in Shortcuts to Adiabatic Expansions of Harmonic Traps

2015

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The expansion of a harmonic potential that holds a quantum particle may be realized without any final particle excitation but much faster than adiabatically via "shortcuts to adiabaticity" (STA). While ideally the process time can be reduced to zero, practical limitations and constraints impose minimal finite times for the externally controlled time-dependent frequency protocols. We examine the role of different time-averaged energies (total, kinetic, potential, non-adiabatic) and of the instantaneous power in characterizing or selecting different protocols. Specifically, we prove a virial theorem for STA processes, set minimal energies for specific times or viceversa, and discuss their realizability by means of Dirac impulses or otherwise.

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“…Можно видеть, что в МДК имеет место процесс, аналогичный диссипации в мо-дели Калдейра-Леггетт [18]- [21].…”

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Статистический Подход К Модели Джейнеса - Каммингса

Bogoli︠u︡bov¹,

Bogolyubov²,

Расулова³

et al. 2012

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Work extraction in the spin-boson model

Cited by 65 publications

References 71 publications

Thermodynamic output of single-atom quantum optical amplifiers and their phase-space fingerprint

Thermodynamic output of single-atom quantum optical amplifiers and their phase-space fingerprint

Transient Particle Energies in Shortcuts to Adiabatic Expansions of Harmonic Traps

Статистический Подход К Модели Джейнеса - Каммингса

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