Related papers: Topological Phase Transitions Induced by Varying Topology and Boundaries in the Toric Code

Topological Phase Transitions Induced by Varying Topology and Boundaries in the Toric Code

URL: http://arxiv.org/abs/2004.03614v3
Date: Fri, 22 Jan 2021 15:37:59 GMT
Title: Topological Phase Transitions Induced by Varying Topology and Boundaries in the Toric Code
Authors: Amit Jamadagni, Arpan Bhattacharyya
Abstract summary: We study the sensitivity of such phases of matter to the underlying topology. We claim that these phase transitions are accompanied by broken symmetries in the excitation space. We show that the phase transition between such steady states is effectively captured by the expectation value of the open-loop operator.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: One of the important characteristics of topological phases of matter is the topology of the underlying manifold on which they are defined. In this paper, we present the sensitivity of such phases of matter to the underlying topology, by studying the phase transitions induced due to the change in the boundary conditions. We claim that these phase transitions are accompanied by broken symmetries in the excitation space and to gain further insight we analyze various signatures like the ground state degeneracy, topological entanglement entropy while introducing the open-loop operator whose expectation value effectively captures the phase transition. Further, we extend the analysis to an open quantum setup by defining effective collapse operators, the dynamics of which cool the system to different topologically ordered steady states. We show that the phase transition between such steady states is effectively captured by the expectation value of the open-loop operator.

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