DQMC simulations establish a direct SMG transition in a high-symmetry bilayer honeycomb lattice with fermion anomalous dimension η_ψ = 0.071(1), providing a quantitative constraint on candidate critical theories.
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In nematic-fluctuation-mediated superconductors with arc-like gap nodes, the phase and amplitude collective modes exhibit qualitatively distinct dispersion relations from conventional BCS superconductors.
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Symmetric Mass Generation in a Bilayer Honeycomb Lattice with $\mathrm{SU}(2)\times\mathrm{SU}(2)\times\mathrm{SU}(2)/\mathbb{Z}_2$ Symmetry
DQMC simulations establish a direct SMG transition in a high-symmetry bilayer honeycomb lattice with fermion anomalous dimension η_ψ = 0.071(1), providing a quantitative constraint on candidate critical theories.
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Superconductivity mediated by nematic fluctuations -- the dispersion of collective modes
In nematic-fluctuation-mediated superconductors with arc-like gap nodes, the phase and amplitude collective modes exhibit qualitatively distinct dispersion relations from conventional BCS superconductors.