arXiv:1706.07483 Abstract | arXiv Analytics

arXiv:1706.07483 [quant-ph]Abstract References Reviews Resources

An Exponential Bound in the Quest for Absolute Zero

Published 2017-06-22Version 1

In most studies for the quantification of the third thermodynamic law, the minimum temperature which can be achieved with a long but finite-time process scales as a negative power of the process duration. In this article, we use our recent complete solution for the optimal control problem of the quantum parametric oscillator to show that the minimum temperature which can be obtained in this system scales exponentially with the available time. The present work is expected to motivate further research in the active quest for absolute zero.

Categories: quant-ph, cs.SY

Subjects: 81Q93, 93C15, 82C10

Keywords: absolute zero, exponential bound, minimum temperature, optimal control problem, finite-time process scales

Related articles: Most relevant | Search more

arXiv:quant-ph/0505056 (Published 2005-05-09)

Decoherence at absolute zero

Supurna Sinha

arXiv:0808.0229 [quant-ph] (Published 2008-08-04)

The Quantum Refrigerator: The quest for absolute zero

Yair Rezek, Peter Salamon, Karl Heinz Hoffmann, Ronnie Kosloff

arXiv:2212.08237 [quant-ph] (Published 2022-12-16)

Quantum sensing of temperature close to absolute zero in a Bose-Einstein condensate

Ji-Bing Yuan, Bo Zhang, Ya-Ju Song, Shi-Qing Tang, Xin-Wen Wang, Le-Man Kuang

arXiv Analytics

arXiv:1706.07483 [quant-ph]Abstract References Reviews Resources

An Exponential Bound in the Quest for Absolute Zero

Links

Toolbox

arXiv:1706.07483 [quant-ph]AbstractReferencesReviewsResources

An Exponential Bound in the Quest for Absolute Zero

Links

Toolbox

arXiv:1706.07483 [quant-ph]Abstract References Reviews Resources