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Quantum tricriticality of chiral-coherent phase in quantum Rabi triangle
arXiv
Authors: Yu-Yu Zhang, Zi-Xiang Hu, Libin Fu, Hong-Gang Luo, Han Pu, Xue-Feng Zhang
Year
2020
Paper ID
19091
Status
Preprint
Abstract Read
~2 min
Abstract Words
148
Citations
N/A
Abstract
The interplay of interactions, symmetries and gauge fields usually leads to intriguing quantum many-body phases. To explore the nature of emerging phases, we study a quantum Rabi triangle system as an elementary building block for synthesizing an artificial magnetic field. We develop an analytical approach to study the rich phase diagram and the associated quantum criticality. Of particular interest is the emergence of a chiral-coherent phase, which breaks both the mathbb{Z}2 and the chiral symmetry. In this chiral phase, photons flow unidirectionally and the chirality can be tuned by the artificial gauge field, exhibiting a signature of broken time-reversal symmetry. The finite-frequency scaling analysis further confirms the associated phase transition to be in the universality class of the Dicke model. This model can simulate a broad range of physical phenomena of light-matter coupling systems, and may have an application in future developments of various quantum information technologies.
Why This Paper Matters
- It adds a 2020 reference point for readers tracking recent quantum research.
- The interplay of interactions, symmetries and gauge fields usually leads to intriguing quantum many-body phases.
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