Related papers: Ubiquity of zeros of Loschmidt amplitude for mixed states in different physical processes and their implications

Ubiquity of zeros of Loschmidt amplitude for mixed states in different physical processes and their implications

URL: http://arxiv.org/abs/2006.12445v2
Date: Wed, 2 Sep 2020 15:52:48 GMT
Title: Ubiquity of zeros of Loschmidt amplitude for mixed states in different physical processes and their implications
Authors: Xu-Yang Hou, Qu-Cheng Gao, Hao Guo, Yan He, Tong Liu, and Chih-Chun Chien
Abstract summary: The amplitude of the purified states of mixed-state density matrices is shown to have zeros when the system undergoes a quasistatic, quench, or Uhlmann process. Although the density matrix remains intact in a quasistatic process, the Loschmidt amplitude can have zeros not associated with a phase transition. We present examples of two-level and three-level systems exhibiting finite- or infinite- temperature DQPTs and finite-temperature TQPTs associated with the Loschmidt-amplitude zeros.
Score: 7.133034788887207
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The Loschmidt amplitude of the purified states of mixed-state density matrices is shown to have zeros when the system undergoes a quasistatic, quench, or Uhlmann process. While the Loschmidt-amplitude zero of a quench process corresponds to a dynamical quantum phase transition (DQPT) accompanied by the diverging dynamical free energy, the Loschmidt-amplitude zero of the Uhlmann process corresponds to a topological phase transition (TQPT) accompanied by a jump of the Uhlmann phase. Although the density matrix remains intact in a quasistatic process, the Loschmidt amplitude can have zeros not associated with a phase transition. We present examples of two-level and three-level systems exhibiting finite- or infinite- temperature DQPTs and finite-temperature TQPTs associated with the Loschmidt-amplitude zeros. Moreover, the dynamical phase or geometrical phase of mixed states can be extracted from the Loschmidt amplitude. Those phases may become quantized or exhibit discontinuity at the Loschmidt-amplitude zeros. A spinor representation of the purified states of a general two-level system is presented to offer more insights into the change of purification in different processes. The quasistatic process, for example, is shown to cause a rotation of the spinor.

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