Characterizing a non-equilibrium phase transition on a quantum computer
Quantum systems subject to driving and dissipation display distinctive non-equilibrium
phenomena relevant to condensed matter, quantum optics, metrology and quantum error
correction. An example is the emergence of phase transitions with uniquely quantum
properties, which opposes the intuition that dissipation generally leads to classical
behaviour. The quantum and non-equilibrium nature of such systems makes them hard to
study with existing tools, such as those from equilibrium statistical mechanics, and …
phenomena relevant to condensed matter, quantum optics, metrology and quantum error
correction. An example is the emergence of phase transitions with uniquely quantum
properties, which opposes the intuition that dissipation generally leads to classical
behaviour. The quantum and non-equilibrium nature of such systems makes them hard to
study with existing tools, such as those from equilibrium statistical mechanics, and …
[引用][C] Characterizing a non-equilibrium phase transition on a quantum computer (2022)
E Chertkov, Z Cheng, AC Potter, S Gopalakrishnan… - arXiv preprint arXiv:2209.12889
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