ESPOSITO, Massimiliano ; University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Physics and Materials Science (DPHYMS)
S. Strasberg, G. Schaller, T. Brandes, and M. Esposito, Quantum and Information Thermodynamics: A Unifying Framework Based on Repeated Interactions, Phys. Rev. X 7, 021003 (2017). PRXHAE 2160-3308 10.1103/PhysRevX.7.021003
G. Guarnieri, D. Morrone, B. Çakmak, F. Plastina, and S. Campbell, Non-equilibrium steady-states of memoryless quantum collision models, Phys. Lett. A 384, 126576 (2020). PYLAAG 0375-9601 10.1016/j.physleta.2020.126576
F. L. S. Rodrigues, G. De Chiara, M. Paternostro, and G. T. Landi, Thermodynamics of Weakly Coherent Collisional Models, Phys. Rev. Lett. 123, 140601 (2019). PRLTAO 0031-9007 10.1103/PhysRevLett.123.140601
F. Ciccarello, S. Lorenzo, V. Giovannetti, and G. M. Palma, Quantum collision models: Open system dynamics from repeated interactions, Phys. Rep. 954, 1 (2022). PRPLCM 0370-1573 10.1016/j.physrep.2022.01.001
F. Barra, The thermodynamic cost of driving quantum systems by their boundaries, Sci. Rep. 5, 14873 (2015). SRCEC3 2045-2322 10.1038/srep14873
S. L. Jacob, M. Esposito, J. M. R. Parrondo, and F. Barra, Thermalization induced by quantum scattering, PRX Quantum 2, 020312 (2021). 2691-3399 10.1103/PRXQuantum.2.020312
P. P. Hofer, M. Perarnau-Llobet, L. D. M. Miranda, G. Haack, R. Silva, J. B. Brask, and N. Brunner, Markovian master equations for quantum thermal machines: Local versus global approach, New J. Phys. 19, 123037 (2017). NJOPFM 1367-2630 10.1088/1367-2630/aa964f
N. Yunger Halpern and S. Majidy, How to build Hamiltonians that transport noncommuting charges in quantum thermodynamics, npj Quantum Inf. 8, 10 (2022). 2056-6387 10.1038/s41534-022-00516-4
F. Kranzl, A. Lasek, M. K. Joshi, A. Kalev, R. Blatt, C. F. Roos, and N. Y. Halpern, Experimental observation of thermalization with noncommuting charges (2022), https://journals.aps.org/prxquantum/accepted/0507aDdcNc 81c70190df8f539af38b4177547e784.
S. Majidy, A. Lasek, D. A. Huse, and N. Yunger Halpern, Non-Abelian symmetry can increase entanglement entropy, Phys. Rev. B 107, 045102 (2023). PRBMDO 2469-9950 10.1103/PhysRevB.107.045102
J. Ehrich, M. Esposito, F. Barra, and J. M. R. Parrondo, Micro-reversibility and thermalization with collisional baths, Physica (Amsterdam) 552A, 122108 (2020). 10.1016/j.physa.2019.122108
J. Tabanera, I. Luque, S. L. Jacob, M. Esposito, F. Barra, and J. M. R. Parrondo, Quantum collisional thermostats, New J. Phys. 24, 023018 (2022). NJOPFM 1367-2630 10.1088/1367-2630/ac4923
F. Ciccarello, Stochastic versus periodic quantum collision models, Open Syst. Inf. Dyn. 29, 2250006 (2022). OSIDFU 1230-1612 10.1142/S1230161222500068
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See Supplemental Material at http://link.aps.org/supplemental/10.1103/PhysRevLett.130.200402 for a detailed description of the numerical methods employed in the analysis of the system, as well as for a discussion of the steady state.
S. N. Filippov, G. N. Semin, and A. N. Pechen, Quantum master equations for a system interacting with a quantum gas in the low-density limit and for the semiclassical collision model, Phys. Rev. A 101, 012114 (2020). PLRAAN 2469-9926 10.1103/PhysRevA.101.012114
S. L. Jacob, M. Esposito, J. M. R. Parrondo, and F. Barra, Quantum scattering as a work source, Quantum 6, 750 (2022). 2521-327X 10.22331/q-2022-06-29-750
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G. Manzano, J. M. R. Parrondo, and G. T. Landi, Non-Abelian quantum transport and thermosqueezing effects, PRX Quantum 3, 010304 (2022). 2691-3399 10.1103/PRXQuantum.3.010304
S. Haroche and J.-M. Raimond, Exploring the Quantum: Atoms, Cavities, and Photons (Oxford University Press, Oxford, 2006).
K. Hornberger, S. Uttenthaler, B. Brezger, L. Hackermller, M. Arndt, and A. Zeilinger, Collisional Decoherence Observed in Matter Wave Interferometry, Phys. Rev. Lett. 90, 160401 (2003). PRLTAO 0031-9007 10.1103/PhysRevLett.90.160401
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K. Hornberger and J. E. Sipe, Collisional decoherence reexamined, Phys. Rev. A 68, 012105 (2003). PLRAAN 1050-2947 10.1103/PhysRevA.68.012105
