Litcius/Paper detail

Superlubric Motion of Wavelike Domain Walls in Sliding Ferroelectrics

Changming Ke, Fucai Liu, Shi Liu

2025Physical Review Letters21 citationsDOI

Abstract

Sliding ferroelectrics constructed from stacked nonpolar monolayers enable out-of-plane polarization in two dimensions with exceptional properties. However, the widely accepted switching mechanism, involving synchronized long-distance in-plane translation of entire atomic layers, contradicts experimental findings. We demonstrate that this spinodal decompositionlike homogeneous switching process violates Neumann's principle and is therefore highly improbable. Instead, polarization reversal relies on symmetry-breaking domain walls (DWs) and the tensorial nature of Born effective charges, highlighting the quantum nature of sliding ferroelectrics. We reveal that wide, wavelike DWs coherently propagate, a stark departure from the narrow DW mechanism recognized for decades. These wavelike DWs exhibit superlubric dynamics, achieving ultrahigh velocities of approximately 4000 m/s at room temperature and displaying an anomalous cooling-promoted switching speed. The unexpected emergence of DW superlubricity presents new avenues for enhancing key performance metrics and offers exciting opportunities for applications in cryogenic environments.

Topics & Concepts

Motion (physics)Domain (mathematical analysis)Domain wall (magnetism)Condensed matter physicsPhysicsMaterials scienceClassical mechanicsQuantum mechanicsMathematical analysisMathematicsMagnetic fieldMagnetizationAcoustic Wave Resonator TechnologiesFerroelectric and Piezoelectric MaterialsAdhesion, Friction, and Surface Interactions