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Condensation of collective polar vortex modes

Tiannan Yang, Cheng Dai, Qian Li, Haidan Wen, Long‐Qing Chen

2021Physical review. B./Physical review. B21 citationsDOIOpen Access PDF

Abstract

The dynamics of extended objects such as domain walls, domain bubbles, vortex structures, etc., can be described by their equations of motion associated with their effective mass and spring constant. Here we analytically derive the equations of motion for the polarization dynamics and elastodynamics for the structural responses of ferroelectric polar vortices, and theoretically extract their effective mass, spring constant, and mode frequencies. We demonstrate two subterahertz phonon modes and predicted their frequencies, both consistent with our recent experimental measurements and phase-field simulations. We show that elastic modulation of the energy function and spring constants leads to a condensation of a collective mode upon a second-order structural transition from symmetric to asymmetric vortices at a critical strain, analogous to the ferroelectric soft phonon mode at a ferroelectric transition. The present work offers a theoretical framework for predicting and manipulating the ultrafast collective dynamics of polar nanostructures.

Topics & Concepts

PhysicsPhononCondensed matter physicsFerroelectricityVortexPolarSoft modesPhase transitionEffective mass (spring–mass system)Classical mechanicsQuantum mechanicsMechanicsDielectricFerroelectric and Piezoelectric MaterialsAcoustic Wave Resonator TechnologiesMultiferroics and related materials
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