logo
ResearchBunny Logo
Anti-Zeno quantum advantage in fast-driven heat machines

Physics

Anti-Zeno quantum advantage in fast-driven heat machines

V. Mukherjee, A. G. Kofman, et al.

This groundbreaking research by Victor Mukherjee, Abraham G. Kofman, and Gershon Kurizki reveals how a fast-modulated cyclic quantum heat machine operating in the non-Markovian regime utilizes the anti-Zeno effect to enhance heat current and power, offering remarkable quantum advantages over traditional machines. Discover how this innovative approach takes advantage of the time-energy uncertainty relation, leading to more efficient energy exchange.... show more
Abstract
Developing quantum machines which can outperform their classical counterparts, thereby achieving quantum supremacy or quantum advantage, is a major aim of the current research on quantum thermodynamics and quantum technologies. Here, we show that a fast-modulated cyclic quantum heat machine operating in the non-Markovian regime can lead to significant heat current and power boosts induced by the anti-Zeno effect. Such boosts signify a quantum advantage over almost all heat machines proposed thus far that operate in the conventional Markovian regime, where the quantumness of the system-bath interaction plays no role. The present effect owes its origin to the time-energy uncertainty relation in quantum mechanics, which may result in enhanced system-bath energy exchange for modulation periods shorter than the bath correlation-time.
Publisher
Communications Physics
Published On
Jan 10, 2020
Authors
Victor Mukherjee, Abraham G. Kofman, Gershon Kurizki
DOI
https://doi.org/10.1038/s42005-019-0272-z
Tags
quantum heat machine
non-Markovian regime
anti-Zeno effect
quantum advantage
energy exchange
modulation
time-energy uncertainty

Related Publications

Explore these studies to deepen your understanding of the subject.

Quantum advantage and stability to errors in analogue quantum simulators
Physics

Quantum advantage and stability to errors in analogue quantum simulators

R. Trivedi, A. F. Rubio, et al.

Combined KRAS G12C and SOS1 inhibition enhances and extends the anti-tumor response in KRAS G12C -driven cancers by addressing intrinsic and acquired resistance
Medicine and Health

Combined KRAS G12C and SOS1 inhibition enhances and extends the anti-tumor response in KRAS G12C -driven cancers by addressing intrinsic and acquired resistance

V. Thatikonda, H. Lu, et al.

Quantum advantage in postselected metrology
Physics

Quantum advantage in postselected metrology

D. R. M. Arvidsson-shukur, N. Y. Halpern, et al.

Current-driven writing process in anti-ferromagnetic Mn₂Au for memory applications
Physics

Current-driven writing process in anti-ferromagnetic Mn₂Au for memory applications

S. Reimers, Y. Lytvynenko, et al.

Listen, Learn & Level Up
Over 10,000 hours of research content in 25+ fields, available in 12+ languages.
No more digging through PDFs, just hit play and absorb the world's latest research in your language, on your time.
listen to research audio papers with researchbunny