Showing papers by "Uma Divakaran published in 2021"
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TL;DR: In this article, a short review of the recent developments on technologies based on many-body quantum systems is presented, which mainly focus on manybody effects in quantum thermal machines and briefly address the role played by manybody systems in the development of quantum batteries and quantum probes.
Abstract: Thermodynamics of quantum systems and quantum thermal machines are rapidly developing fields, which have already delivered several promising results, as well as raised many intriguing questions. Many-body quantum machines present new opportunities stemming from many-body effects. At the same time, they pose new challenges related to many-body physics. In this short review we discuss some of the recent developments on technologies based on many-body quantum systems. We mainly focus on many-body effects in quantum thermal machines. We also briefly address the role played by many-body systems in the development of quantum batteries and quantum probes.
13 citations
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TL;DR: In this article, a short review of the recent developments on technologies based on many-body quantum systems is presented, which mainly focus on manybody effects in quantum thermal machines and briefly address the role played by manybody systems in the development of quantum batteries and quantum probes.
Abstract: Thermodynamics of quantum systems and associated quantum technologies are rapidly developing fields, which have already delivered several promising results, as well as raised many intriguing questions. Many-body quantum technologies present new opportunities stemming from many-body effects. At the same time, they pose new challenges related to many-body physics. In this short review we discuss some of the recent developments on technologies based on many-body quantum systems. We mainly focus on many-body effects in quantum thermal machines. We also briefly address the role played by many-body systems in the development of quantum batteries and quantum probes.
1 citations
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TL;DR: In this paper, a short review of the recent developments on technologies based on many-body quantum systems is presented, which mainly focus on manybody effects in quantum thermal machines and briefly address the role played by manybody systems in the development of quantum batteries and quantum probes.
Abstract: Thermodynamics of quantum systems and quantum thermal machines are rapidly developing fields, which have already delivered several promising results, as well as raised many intriguing questions. Many-body quantum machines present new opportunities stemming from many-body effects. At the same time, they pose new challenges related to many-body physics. In this short review we discuss some of the recent developments on technologies based on many-body quantum systems. We mainly focus on many-body effects in quantum thermal machines. We also briefly address the role played by many-body systems in the development of quantum batteries and quantum probes.