Chaos controlled and disorder driven phase transitions by breaking permutation symmetry

• URL: http://arxiv.org/abs/2406.00521v1
• Date: Sat, 1 Jun 2024 18:02:38 GMT
• Title: Chaos controlled and disorder driven phase transitions by breaking permutation symmetry
• Authors: Manju C, Arul Lakshminarayan, Uma Divakaran,
• Abstract summary: Introducing disorder in a system typically breaks symmetries and can introduce dramatic changes in its properties such as localization. In this work the effect of permutation symmetry breaking by disorder is studied in a system which has a controllable regular to chaotic transition. Results indicate a continuous phase transition from an area-law to a volume-law entangled phase irrespective of whether there is chaos or not.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Introducing disorder in a system typically breaks symmetries and can introduce dramatic changes in its properties such as localization. At the same time, the clean system can have distinct many-body features depending on how chaotic it is. In this work the effect of permutation symmetry breaking by disorder is studied in a system which has a controllable and deterministic regular to chaotic transition. Results indicate a continuous phase transition from an area-law to a volume-law entangled phase irrespective of whether there is chaos or not, as the strength of the disorder is increased. The critical disorder strength obtained by finite size scaling, indicate a strong dependence on whether the clean system is regular or chaotic to begin with. In the process, we also obtain the critical exponents associated with this phase transition. Additionally, we find that a relatively small disorder is seen to be sufficient to delocalize a chaotic system.

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