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Main Authors: Scharf, Gili, Donval, Lara, Gur, Leah Ben, Ron, Alon
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.21284
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author Scharf, Gili
Donval, Lara
Gur, Leah Ben
Ron, Alon
author_facet Scharf, Gili
Donval, Lara
Gur, Leah Ben
Ron, Alon
contents Most microscopic descriptions of structural dynamics assume the Born-Oppenheimer separation, where electrons adjust adiabatically to ionic motion. When this separation breaks down, electronic and lattice degrees of freedom can evolve on different timescales, giving rise to new physical phenomena beyond the adiabatic limit. Here we use time-resolved, phase-sensitive second-harmonic generation and pump-probe reflectivity to reshape the ferroelectric free-energy landscape of SnTe while separately tracking polar order and coherent lattice motion. When photoexcitation transiently suppresses the double-well barrier, polarization dynamics become strongly nonlinear, while the coherent phonon dynamics remain harmonic. This decoupling cannot be described by a single adiabatic coordinate for the electronic polarization and ionic positions. We provide a unifying physical description for the non adiabatic dynamics of the ferroelectric mode and the mixed displacive/order-disorder nature of SnTe based on a separation of scales for the renormalization of the ferroelectric stiffness.
format Preprint
id arxiv_https___arxiv_org_abs_2602_21284
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Non adiabatic dynamics of the ferroelectric soft mode
Scharf, Gili
Donval, Lara
Gur, Leah Ben
Ron, Alon
Materials Science
Most microscopic descriptions of structural dynamics assume the Born-Oppenheimer separation, where electrons adjust adiabatically to ionic motion. When this separation breaks down, electronic and lattice degrees of freedom can evolve on different timescales, giving rise to new physical phenomena beyond the adiabatic limit. Here we use time-resolved, phase-sensitive second-harmonic generation and pump-probe reflectivity to reshape the ferroelectric free-energy landscape of SnTe while separately tracking polar order and coherent lattice motion. When photoexcitation transiently suppresses the double-well barrier, polarization dynamics become strongly nonlinear, while the coherent phonon dynamics remain harmonic. This decoupling cannot be described by a single adiabatic coordinate for the electronic polarization and ionic positions. We provide a unifying physical description for the non adiabatic dynamics of the ferroelectric mode and the mixed displacive/order-disorder nature of SnTe based on a separation of scales for the renormalization of the ferroelectric stiffness.
title Non adiabatic dynamics of the ferroelectric soft mode
topic Materials Science
url https://arxiv.org/abs/2602.21284