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
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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
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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.
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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
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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