Quantum thermodynamical work beyond the Markovian limit (2020)
- USP affiliated author: NEVES, LUIS RODRIGO TORRES - IFSC
- School: IFSC
- Subjects: SISTEMA QUÂNTICO; TERMODINÂMICA
- Language: Inglês
- Abstract: Extending the principles of thermodynamics to quantum systems composed of one or few elementary parts is one of the key challenges of the field of quantum thermodynamics, with both theoretical and practical interest. In particular, the definition of work for a quantum system strongly coupled to its surroundings is an object of debate in contemporary research. In a recent paper, an approach to this problem has been proposed in the context of a dipole interacting with a single-photon electromagnetic pulse. The method relies on a decomposition of the non-Markovian dynamics of the reduced ensemble, whereby an effective Hamiltonian may be identified. In this monograph, we review and formalize this method, showing for the first time how it can be extended for a general two-level open quantum system, besides reviewing the discussions on the model system to which it was originally applied
ABNTNEVES, Luis Rodrigo Torres; BRITO, Frederico. Quantum thermodynamical work beyond the Markovian limit. [S.l: s.n.], 2020.
APANeves, L. R. T., & Brito, F. (2020). Quantum thermodynamical work beyond the Markovian limit. São Carlos.
NLMNeves LRT, Brito F. Quantum thermodynamical work beyond the Markovian limit. 2020 ;
VancouverNeves LRT, Brito F. Quantum thermodynamical work beyond the Markovian limit. 2020 ;
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