%0 Generic %1 ribeiro2019kinetics %A Ribeiro, Hugo %A Marquardt, Florian %D 2019 %K QOPT %T Kinetics of Many-Body Reservoir Engineering %U http://arxiv.org/abs/1911.13190 %X Recent advances illustrate the power of reservoir engineering in applications to many-body systems, such as quantum simulators based on superconducting circuits. We present a framework based on kinetic equations and noise spectra that can be used to understand both the transient and long-time behavior of many particles coupled to an engineered reservoir in a number-conserving way. For the example of a bosonic array, we show that the non-equilibrium steady state can be expressed, in a wide parameter regime, in terms of a modified Bose-Einstein distribution with an energy-dependent temperature.

@misc{ribeiro2019kinetics, abstract = {Recent advances illustrate the power of reservoir engineering in applications to many-body systems, such as quantum simulators based on superconducting circuits. We present a framework based on kinetic equations and noise spectra that can be used to understand both the transient and long-time behavior of many particles coupled to an engineered reservoir in a number-conserving way. For the example of a bosonic array, we show that the non-equilibrium steady state can be expressed, in a wide parameter regime, in terms of a modified Bose-Einstein distribution with an energy-dependent temperature.}, added-at = {2019-12-03T10:21:04.000+0100}, author = {Ribeiro, Hugo and Marquardt, Florian}, biburl = {https://www.bibsonomy.org/bibtex/25fe1193ce4a9f2134a2911f6a3c0243c/sahand}, interhash = {97c5eb6295662a87595a512843734e36}, intrahash = {5fe1193ce4a9f2134a2911f6a3c0243c}, keywords = {QOPT}, note = {cite arxiv:1911.13190Comment: 9 pages (including supplementary), 5 figures}, timestamp = {2019-12-03T10:21:04.000+0100}, title = {Kinetics of Many-Body Reservoir Engineering}, url = {http://arxiv.org/abs/1911.13190}, year = 2019 }