Abstract
We predict a rich excitation spectrum of a binary dipolar supersolid in a linear crystal geometry, where the ground state consists of two partially immiscible components with alternating, interlocking domains. We identify three Goldstone branches, each with first-sound, second-sound, or spin-sound character. In analogy with a diatomic crystal, the resulting lattice has a two-domain primitive basis and we find that the crystal (first-sound-like) branch is split into optical and acoustic phonons. We also find a spin-Higgs branch that is associated with the supersolid modulation amplitude.
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CITATION STYLE
Kirkby, W., Lee, A. C., Baillie, D., Bland, T., Ferlaino, F., Blakie, P. B., & Bisset, R. N. (2024). Excitations of a Binary Dipolar Supersolid. Physical Review Letters, 133(10). https://doi.org/10.1103/PhysRevLett.133.103401
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