Dysprosium atoms in a metastable state 17513 cm^{-1} above ground show a 7.65 Debye reduced transition dipole moment between opposite-parity doublet states spaced 1.12 cm^{-1} apart, enabling single-photon preparation in high electric fields.
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Degeneracy in cavity-coupled Pauli crystals induces zero-threshold superradiance accompanied by emergence of a periodically modulated genuine quantum crystal.
DMRG simulations of a moiré-modulated 1D Bose-Hubbard model reveal a local supersolid phase with staggered local density order, local off-diagonal coherence, exponentially decaying global correlations, and vanishing global structure factor.
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Magnetic atoms with a large electric dipole moment
Dysprosium atoms in a metastable state 17513 cm^{-1} above ground show a 7.65 Debye reduced transition dipole moment between opposite-parity doublet states spaced 1.12 cm^{-1} apart, enabling single-photon preparation in high electric fields.
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Pauli crystal superradiance
Degeneracy in cavity-coupled Pauli crystals induces zero-threshold superradiance accompanied by emergence of a periodically modulated genuine quantum crystal.
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Local supersolid in moir\'e modulated Bose-Hubbard model using density-matrix renormalization group method
DMRG simulations of a moiré-modulated 1D Bose-Hubbard model reveal a local supersolid phase with staggered local density order, local off-diagonal coherence, exponentially decaying global correlations, and vanishing global structure factor.