副教授 博士生导师 硕士生导师
性别: 男
毕业院校: 大连理工大学
学位: 博士
所在单位: 物理学院
学科: 理论物理
电子邮箱: wanglc@dlut.edu.cn
开通时间: ..
最后更新时间: ..
点击次数:
论文类型: 期刊论文
发表时间: 2013-01-31
发表刊物: PHYSICAL REVIEW E
收录刊物: SCIE、EI、Scopus
卷号: 87
期号: 1
ISSN号: 2470-0045
摘要: We explore the quantum version of the Brayton cycle with a composite system as the working substance. The actual Brayton cycle consists of two adiabatic and two isobaric processes. Two pressures can be defined in our isobaric process; one corresponds to the external magnetic field (characterized by F-x) exerted on the system, while the other corresponds to the coupling constant between the subsystems (characterized by F-y). As a consequence, we can define two types of quantum Brayton cycle for the composite system. We find that the subsystem experiences a quantum Brayton cycle in one quantum Brayton cycle (characterized by F-x), whereas the subsystem's cycle is quantum Otto cycle in another Brayton cycle (characterized by F-y). The efficiency for the composite system equals to that for the subsystem in both cases, but the work done by the total system is usually larger than the sum of the work done by the two subsystems. The other interesting finding is that for the cycle characterized by F-y, the subsystem can be a refrigerator, while the total system is a heat engine. The result in this paper can be generalized to a quantum Brayton cycle with a general coupled system as the working substance. DOI: 10.1103/PhysRevE.87.012144