Direction maps and pinwheel structures in MT emerge spontaneously when a spatiotemporal deep network is trained on videos with contrastive self-supervised learning and spatial regularization.
Journal of Physics C: Solid State Physics6(7), 1181–1203 (1973)
8 Pith papers cite this work. Polarity classification is still indexing.
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Cavity engineering increases superfluid weight and shifts the superconducting onset temperature upward in an underdoped YBCO thin film, interpreted via a phase-fluctuating superconductor model.
A geometric field theory unifies topology, intrinsic/extrinsic geometry, solitons, defect orientations, and elastic anisotropy in 2D nematics, showing that gauge non-invariance induces non-linear many-body defect interactions.
Numerical study demonstrates controlled transport of Z4 parafermion edge states in a ladder model and quantifies the adiabatic speed limit under realistic conditions.
The study uncovers symmetry-protected topological phases with coexisting spontaneous symmetry breaking in the triangular Majorana-Hubbard ladder model of interacting Majorana fermions.
Padé approximation reduces the polynomial degree and computation time for accurate critical temperature estimates from Fisher zeros in 2D Ising and XY models.
A review of topological defects in glasses, their theoretical foundations, and correlations with plasticity and shear-band formation in amorphous solids.
A review of equilibrium and dynamic scaling laws at quantum phase transitions, including quenches and dissipative effects treated as perturbations to critical regimes.
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Defect Kinematics in 2D Nematics: Contributions from Surface Topology, Intrinsic and Extrinsic Geometry, Solitons, Defect Orientations, and Elastic Anisotropy
A geometric field theory unifies topology, intrinsic/extrinsic geometry, solitons, defect orientations, and elastic anisotropy in 2D nematics, showing that gauge non-invariance induces non-linear many-body defect interactions.