SEMF | Quantum Thermodynamics (4/4) | Álvaro Tejero | Summer School 2022 @SEMF | Uploaded July 2022 | Updated October 2024, 8 hours ago.
Short course kindly contributed by Álvaro Tejero-Moyano in SEMF's 2022 Summer School
semf.org.es/spatiality
COURSE ABSTRACT
Quantum thermodynamics arises when extending the laws and ideas from classical thermodynamics to the microscopical, i.e. quantum, regime. In this course, we will address the fundamentals of the theory focusing on the laws of quantum thermodynamics. We will also present the main practical applications of this theory, such as quantum thermal machines, and point out the main conceptual issues when dealing with quantities such as heat, work or entropy. It is convenient to know the fundamentals of classical thermodynamics and quantum theory to assist. The course is structured in four sessions:
1. Introduction and motivation. Notions of Classical Thermodynamics
2. Open quantum systems, Lindblad Equation and First Law of Quantum Thermodynamics
3. Second Law of Quantum Thermodynamics and entropy production
4. Quantum thermal engines and batteries
REFERENCES
· Thermodynamics and an Introduction to Thermostatistics by H. Callen
· Statistical Mechanics by R. Pathria and P. Beale
· Thermodynamics in the quantum regime by F. Binder et al. (eds) (link.springer.com/book/10.1007/978-3-319-99046-0)
· Quantum Thermodynamics. An introduction to the thermodynamics of quantum information by S. Deffner and S.Campbell (arxiv.org/pdf/1907.01596.pdf)
· Quantum Thermodynamics by S. Vinjanampathy and J. Anders (arxiv.org/abs/1508.06099)
· Irreversible entropy production, from quantum to classical by G. Landi and M. Paternostro (arxiv.org/abs/2009.07668)
· Quantum Thermodynamics: a dynamical viewpoint by R. Kosloff (arxiv.org/abs/1305.2268)
· A short introduction to the Lindblad Master Equation by D. Manzano (arxiv.org/abs/1906.04478)
· Quantum thermal machines and batteries by S. Bhattacharjee and A. Dutta (arxiv.org/abs/2008.07889)
ÁLVARO TEJERO-MOYANO
PhD student at Universidad de Granada
LinkedIn: linkedin.com/in/%C3%A1lvaro-tejero-301320159
SEMF NETWORKS
Website: semf.org.es
Twitter: twitter.com/semf_nexus
LinkedIn: linkedin.com/company/semf-nexus
Instagram: instagram.com/semf.nexus
Facebook: facebook.com/semf.nexus
Short course kindly contributed by Álvaro Tejero-Moyano in SEMF's 2022 Summer School
semf.org.es/spatiality
COURSE ABSTRACT
Quantum thermodynamics arises when extending the laws and ideas from classical thermodynamics to the microscopical, i.e. quantum, regime. In this course, we will address the fundamentals of the theory focusing on the laws of quantum thermodynamics. We will also present the main practical applications of this theory, such as quantum thermal machines, and point out the main conceptual issues when dealing with quantities such as heat, work or entropy. It is convenient to know the fundamentals of classical thermodynamics and quantum theory to assist. The course is structured in four sessions:
1. Introduction and motivation. Notions of Classical Thermodynamics
2. Open quantum systems, Lindblad Equation and First Law of Quantum Thermodynamics
3. Second Law of Quantum Thermodynamics and entropy production
4. Quantum thermal engines and batteries
REFERENCES
· Thermodynamics and an Introduction to Thermostatistics by H. Callen
· Statistical Mechanics by R. Pathria and P. Beale
· Thermodynamics in the quantum regime by F. Binder et al. (eds) (link.springer.com/book/10.1007/978-3-319-99046-0)
· Quantum Thermodynamics. An introduction to the thermodynamics of quantum information by S. Deffner and S.Campbell (arxiv.org/pdf/1907.01596.pdf)
· Quantum Thermodynamics by S. Vinjanampathy and J. Anders (arxiv.org/abs/1508.06099)
· Irreversible entropy production, from quantum to classical by G. Landi and M. Paternostro (arxiv.org/abs/2009.07668)
· Quantum Thermodynamics: a dynamical viewpoint by R. Kosloff (arxiv.org/abs/1305.2268)
· A short introduction to the Lindblad Master Equation by D. Manzano (arxiv.org/abs/1906.04478)
· Quantum thermal machines and batteries by S. Bhattacharjee and A. Dutta (arxiv.org/abs/2008.07889)
ÁLVARO TEJERO-MOYANO
PhD student at Universidad de Granada
LinkedIn: linkedin.com/in/%C3%A1lvaro-tejero-301320159
SEMF NETWORKS
Website: semf.org.es
Twitter: twitter.com/semf_nexus
LinkedIn: linkedin.com/company/semf-nexus
Instagram: instagram.com/semf.nexus
Facebook: facebook.com/semf.nexus