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.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
representative citing papers
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.
citing papers explorer
-
Symplectic split-operator method for the time-dependent unitary Tavis-Cummings model
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.
-
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.
-
Universal Spin Squeezing Dynamical Phase Transitions across Lattice Geometries, Dimensions, and Microscopic Couplings
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.