The cavity axion polariton represents a new frontier in the field of topological matter and light-matter interactions. Our study focuses on short-wavelength axion modes and the axion-axion interaction to realize strong axion-photon coupling and low damping of the axion mode. We discover an unconventional coupling between photon and standing wave axion modes that is in the strong-coupling regime as the number of antinodes is large, and cavity-mediated axion-axion coupling leads to the axion dark mode. Our findings suggest that short-wavelength axion dark modes may have potential applications in quantum manipulation and storage.
The cavity axion polariton represents a new frontier in the field of topological matter and light-matter interactions. To realize strong axion-photon coupling and low damping of the axion mode, which are two key factors for quantum information applications, we studied the short-wavelength axion modes and the axion-axion interaction theoretically. Our results reveal an unconventional coupling between photon and standing wave axion modes that is in the strong-coupling regime as the number of antinodes is large. When two axion modes are coupled with cavity photons, cavity-mediated axion-axion coupling gives rise to the axion dark mode. Our results suggest that short-wavelength axion dark modes may be potential candidates for quantum manipulation and storage.
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