A fast, memory-efficient symplectic split-operator method for the time-dependent Tavis-Cummings model that achieves linear scaling by re-indexing the Hamiltonian to tri-diagonal form.
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Gauge fields induce a quantized transverse spin conductivity σ^{xy}=α² sgn(m) ℏ/4π in Dirac magnons of a honeycomb ferromagnet, with AC resonance at the topological gap, as a magnonic analog of the quantum Hall effect.
The dynamical squeezing phase transition in bilayer XXZ spin models is universal across lattice geometries and interlayer coupling rescalings, with a new sub-linear scaling for short-range interactions.
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Transport of Dirac magnons driven by gauge fields
Gauge fields induce a quantized transverse spin conductivity σ^{xy}=α² sgn(m) ℏ/4π in Dirac magnons of a honeycomb ferromagnet, with AC resonance at the topological gap, as a magnonic analog of the quantum Hall effect.