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能量转换量子系统的热力学特性及其研究进展 被引量:5

Thermodynamic characteristics and research progress of energy-conversion quantum systems
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摘要 量子物理是理解微观粒子运动规律的现代物理学理论.它与信息、生命以及化学等学科相互联系日益紧密,引发了许多新技术革命,深刻影响着人类的生活,已成为社会经济发展的原动力之一.当前,量子物理和能源科学结合,正在产生新的学科生长点.本文主要概述多种类型能量转换量子系统的发展;结合国内外的研究现状,系统地阐明如何应用热力学理论研究量子体系的能量操控以及微观器件的优化设计;总结量子热力学循环、能量选择量子电子器件、量子点热管理器件等在理论和实验方面研究的代表性成果和进展;展望量子物理与能源科学交叉领域发展的新方向. Quantum physics is a branch of modern physics for understanding the motion rules of microscopic particles.It is increasingly interconnected with information,life,chemistry,and other disciplines,triggering many new technological revolutions and profoundly affecting human life.It has become one of the driving forces of socio-economic development.At present,the combination of quantum physics with energy subjects is creating a new disciplinary growing point.This paper mainly outlines the development of various types of energy-conversion quantum systems.Combined with the current research situation of domestic and overseas,the problems regarding the application of the thermodynamic theory to study the energy manipulation of quantum systems and the optimal design of microdevices are systematically clarified.The representative achievements and research progress in the theories and experiments of quantum thermodynamic cycles,energy-selective electron quantum devices,and quantum dot thermal management devices are summarized.The new development directions of the intersection fields of quantum physics and energy science are discussed.
作者 苏山河 张艳超 彭万里 苏国珍 陈金灿 SU ShanHe;ZHANG YanChao;PENG WanLi;SU GuoZhen;CHEN JinCan(Department of Physics,College of Physical Science and Technology,Xiamen University,Xiamen 361005,China;School of Science,Guangxi University of Science and Technology,Liuzhou 545006,China)
出处 《中国科学:物理学、力学、天文学》 CSCD 北大核心 2021年第3期112-135,共24页 Scientia Sinica Physica,Mechanica & Astronomica
基金 国家自然科学基金(编号:12075197,11805159,11675132)资助项目。
关键词 量子器件 量子循环 量子工质 量子点 能量选择通道 热管理 quantum device quantum cycle quantum working substance quantum dot energy selective channel thermal management
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  • 1HE JiZhou,HE Xian,TANG Wei.The performance characteristics of an irreversible quantum Otto harmonic refrigeration cycle[J].Science China(Physics,Mechanics & Astronomy),2009,52(9):1317-1323. 被引量:14
  • 2LIU XiaoWei,CHEN LinGen,WU Feng,SUN FengRui.Ecological optimization of an irreversible harmonic oscillators Carnot heat engine[J].Science China(Physics,Mechanics & Astronomy),2009,52(12):1976-1988. 被引量:16
  • 3Geva E, Kosloff R. Three-level quantum amplifer as a heat engine.Phys Rev E, 1994, 49 (5) : 3903-3918.
  • 4Kosloff R, Geva E. Quantum refrigerators in quest of the absolute zero. Journal of Applied Physics, 2000, 87 ( 11 ) : 8093-8097.
  • 5Geva E, Kosloff R. On the classical limit of quantum themodynamics in fmite time.J Chem Phys, 1992, 97 (6) : 4398-4412.
  • 6Geva E, Kosloff R. A quantum-mechanical heat engine operating in finite time. J Chem Phys, 1992, 96 (4):3054-3067.
  • 7Sisman A, Saygin H.On the power cycles working with ideal quantum gases: Ⅰ.The Ericsson cycle.J Phys D: Appl Phys, 1999, 32(4) : 664-670.
  • 8Sisman A, Saygin H. The improvement effect of quantum degeneracy on the work from a Carmot cycle. Appl Energy, 2001, 68 (3) :367-376.
  • 9Saygin H, Sisman A. Quantum degeneracy effect on the work output from a Stirling cycle. Journal of Appl Phys, 2001, 90 ( 6 ) : 3086-3089.
  • 10Saygln H, Sisman A. Brayton refrigeration cycles wonking under quantum degeneracy conditions. Appl Energy, 2001, 69 (1) : 77-85.

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