A scattering theory for time boundaries establishes that the number of topological resonant transmissions equals the jump in bulk topological invariants for all integer Altland-Zirnbauer classes, with dimensional robustness differences.
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6 Pith papers cite this work. Polarity classification is still indexing.
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2026 6representative citing papers
Vortex line-length density in a 3D atomic Bose gas decays as predicted for Vinen ultraquantum turbulence, independent of interatomic interaction strength.
Neural quantum states with a tailored 3D convolutional architecture simulate quench dynamics up to 1000 qubits and verify the 3D quantum Kibble-Zurek mechanism with RG-derived logarithmic corrections and data collapse.
Initial transport during relaxation of a homogeneous Bose gas is an inverse weak wave turbulence cascade with γ=2.4(1) and time scaling ∝(na)^{-2}.
Stabilizer Rényi entropies and Pauli spectrum cumulants show universal power-law scaling with driving rate in slow processes across quantum phase transitions, with the logarithmic Pauli spectrum asymptotically Gaussian, demonstrated in the transverse-field Ising model and long-range Kitaev models.
Local Chern markers in ribbon geometries match bulk Středa markers, show size-dependent boundary deviations, and yield scaling exponents converging to theory in weakly disordered Chern insulators.
citing papers explorer
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Observation of Vinen turbulence during far-from-equilibrium Bose-Einstein condensation
Vortex line-length density in a 3D atomic Bose gas decays as predicted for Vinen ultraquantum turbulence, independent of interatomic interaction strength.
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Weak wave turbulence as a precursor to universal coarsening in a homogeneous Bose gas
Initial transport during relaxation of a homogeneous Bose gas is an inverse weak wave turbulence cascade with γ=2.4(1) and time scaling ∝(na)^{-2}.