Litcius/Paper detail

Colossal topological Hall effect at the transition between isolated and lattice-phase interfacial skyrmions

M. Raju, A. P. Petrović, A. Yagil, K. S. Denisov, N. K. Duong, B. Göbel, E. Şaşıoğlu, O. M. Auslaender, I. Mertig, I. V. Rozhansky, C. Panagopoulos

2021Nature Communications45 citationsDOIOpen Access PDF

Abstract

The topological Hall effect is used extensively to study chiral spin textures in various materials. However, the factors controlling its magnitude in technologically-relevant thin films remain uncertain. Using variable-temperature magnetotransport and real-space magnetic imaging in a series of Ir/Fe/Co/Pt heterostructures, here we report that the chiral spin fluctuations at the phase boundary between isolated skyrmions and a disordered skyrmion lattice result in a power-law enhancement of the topological Hall resistivity by up to three orders of magnitude. Our work reveals the dominant role of skyrmion stability and configuration in determining the magnitude of the topological Hall effect.

Topics & Concepts

SkyrmionCondensed matter physicsHall effectPhysicsLattice (music)Spin (aerodynamics)Phase transitionTopology (electrical circuits)Quantum spin Hall effectHall conductivityQuantum Hall effectElectrical resistivity and conductivityTopological orderPhase (matter)Topological quantum numberSpin structureSpin Hall effectWork (physics)Magnetic fieldBoundary (topology)Lattice constantThermal Hall effectPhase boundaryMagnetic properties of thin filmsTopological Materials and PhenomenaChemical and Physical Properties of Materials