Cholesteric fingers are composite chiral solitons built from merons, with CF-2 as unit-charge bimerons and CF-1 as topologically trivial pairs, showing repulsive interactions in homogeneous states and attractive ones in conical backgrounds, with stability controlled by film thickness.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Skyrmioniums exhibit a current-induced Hall effect from internal topological imbalance and undergo field- and anisotropy-dependent instabilities plus collective dynamics in lattices.
A double O(3)-sigma model minimally coupled to Maxwell admits self-dual vortices with quantized flux in which two sigma sectors combine into a single topological sector under a periodic cosine potential.
citing papers explorer
-
Cholesteric Fingers from a Magnetic Perspective: Topology, Energetics, and Interactions
Cholesteric fingers are composite chiral solitons built from merons, with CF-2 as unit-charge bimerons and CF-1 as topologically trivial pairs, showing repulsive interactions in homogeneous states and attractive ones in conical backgrounds, with stability controlled by film thickness.
-
Current-Induced Dynamics and Instability Pathways of Skyrmioniums in Chiral Magnets
Skyrmioniums exhibit a current-induced Hall effect from internal topological imbalance and undergo field- and anisotropy-dependent instabilities plus collective dynamics in lattices.
-
Topological and self-dual vortices in a double sigma model with Maxwell coupling
A double O(3)-sigma model minimally coupled to Maxwell admits self-dual vortices with quantized flux in which two sigma sectors combine into a single topological sector under a periodic cosine potential.