Superradiant phase transitions in the quantum Rabi model: Overcoming the no-go theorem through anisotropy
Ye Tian, Yanzhi Wang, Xiang-You Chen, Qing‐Hu Chen, Haiqing Lin
Abstract
Although the superradiant phase transition (SRPT) is prohibited in the paradigmatic quantum Rabi model due to the no-go theorem caused by the ${\mathbf{A}}^{2}$ term, we demonstrate two distinct types of SRPTs emerging from the normal phase in the anisotropic quantum Rabi model. A discontinuous phase transition between the two types of superradiant phases also emerges in the presence of a strong ${\mathbf{A}}^{2}$ term. Additionally, a rich phase diagram featuring a triple point, which connects first- and second-order phase transitions, is derived analytically and confirmed through numerical diagonalization at large effective system sizes. Finally, distinct critical behavior at the triple point is revealed and contrasted with that of a single continuous SRPT. This work may open a new avenue for observing SRPTs in their intrinsic form without altering the ${\mathbf{A}}^{2}$ term, while also offering a practical platform for exploring rich quantum phenomena.