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On the Origin of the Hidden Symmetry in the Asymmetric Quantum Rabi Model
arXiv
Authors: Yun-Tong Yang, Song-Ming Chen, Hong-Gang Luo
Year
2025
Paper ID
17505
Status
Preprint
Abstract Read
~2 min
Abstract Words
184
Citations
N/A
Abstract
The introduction of an asymmetric term into the quantum Rabi model generally lifts energy-level degeneracies. However, when the asymmetry parameter takes specific multiples of the bosonic mode frequency, level degeneracies reappear-a phenomenon referred to as the hidden symmetry in the asymmetric quantum Rabi model. Identifying the origin of this hidden symmetry and its explicit operator form constitutes two central tasks in studying this system. Here, we investigate the origin of this hidden symmetry using the method of two successive diagonalizations, with a focus on physics in the regime where the ratio between the two-level splitting Δ and the mode frequency ω satisfies Δ/ωgg 1. We find that the hidden symmetry stems from energy-level matching within the asymmetric double-well potential, a picture strongly supported by the wavefunctions of both the ground and excited states. Moreover, the emergence of an excited-state quantum phase transition is identified and qualitatively discussed, which arises from the breaking and restoration of this hidden symmetry across different coupling regimes. Our results provide deeper insight into the physics of the asymmetric quantum Rabi model, particularly in the previously less-explored strong-coupling regime where Δ/ωgg 1.
Why This Paper Matters
- It adds a 2025 reference point for readers tracking recent quantum research.
- The introduction of an asymmetric term into the quantum Rabi model generally lifts energy-level degeneracies.
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