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巴斯工程增强量子临界引擎

Bath Engineering Enhanced Quantum Critical Engines.

作者信息

B S Revathy, Mukherjee Victor, Divakaran Uma

机构信息

Department of Physics, Indian Institute of Technology Palakkad, Palakkad 678557, India.

Department of Physical Sciences, IISER Berhampur, Berhampur 760010, India.

出版信息

Entropy (Basel). 2022 Oct 13;24(10):1458. doi: 10.3390/e24101458.

Abstract

Driving a quantum system across quantum critical points leads to non-adiabatic excitations in the system. This in turn may adversely affect the functioning of a quantum machine which uses a quantum critical substance as its working medium. Here we propose a (BEQE), in which we use the Kibble-Zurek mechanism and critical scaling laws to formulate a protocol for enhancing the performance of finite-time quantum engines operating close to quantum phase transitions. In the case of free fermionic systems, BEQE enables finite-time engines to outperform engines operating in the presence of shortcuts to adiabaticity, and even infinite-time engines under suitable conditions, thus showing the remarkable advantages offered by this technique. Open questions remain regarding the use of BEQE based on non-integrable models.

摘要

驱使量子系统跨越量子临界点会导致系统中的非绝热激发。这反过来可能会对以量子临界物质作为工作介质的量子机器的运行产生不利影响。在此,我们提出一种基布尔 - 祖雷克增强量子引擎(BEQE),其中我们利用基布尔 - 祖雷克机制和临界标度定律来制定一个协议,以提高在接近量子相变处运行的有限时间量子引擎的性能。在自由费米子系统的情况下,BEQE使有限时间引擎能够超越在存在绝热捷径情况下运行的引擎,甚至在合适条件下超越无限时间引擎,从而展示了该技术所具有的显著优势。关于基于不可积模型的BEQE的使用,仍存在一些未解决的问题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0d63/9601589/13a8a9bbdfc1/entropy-24-01458-g0A1.jpg

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