Unconventional level attraction in cavity axion polariton of antiferromagnetic topological insulator

Strong coupling between cavity photons and various excitations in condensed matters boosts the field of light-matter interaction and generates several exciting subfields, such as cavity optomechanics and cavity magnon polariton. The level repulsion induced by the strong coupling represents a common feature of polaritons. Axion quasiparticles, emerging in topological insulators, were predicted to strongly couple with the light to lead to the so-called axion polariton. Here, we demonstrate that an unconventional level attraction occurs in cavity axion polariton of antiferromagnetic topological insulators, besides the well-known level repulsion. In contrast to the conventional level attraction, with the mechanism of either a linear coupling or a dissipation-mediated interaction, the level attraction discovered here is gapless and originates from a nonlinear interaction between axion and the odd-order resonance of cavity. The level attraction can become gapped through introducing the dissipation of cavity. Our results reveal a new mechanism of level attractions, and open up new roads for exploring the axion polariton with cavity-related technologies and potential applications for axion-based quantum electrodynamics.