Temporal and spatial tracking of ultrafast light-induced strain and polarization modulation in a ferroelectric thin film

Temporal and spatial tracking of ultrafast light-induced strain and polarization modulation in a ferroelectric thin film

Ultrashort light pulses induce rapid deformations of crystalline lattices. In ferroelectrics, lattice deformations couple directly to the polarization, which opens the perspective to modulate the electric polarization on an ultrafast time scale. Here, we report on the temporal and spatial tracking o...

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Veröffentlicht in:Science advances 2023-11, Vol.9 (46), p.eadi1160-eadi1160
Hauptverfasser: Gu, Ruizhe, Juvé, Vincent, Laulhé, Claire, Bouyanfif, Houssny, Vaudel, Gwenaëlle, Poirier, Aurélie, Dkhil, Brahim, Hollander, Philippe, Paillard, Charles, Weber, Mads C., Sando, Daniel, Fusil, Stéphane, Garcia, Vincent, Ruello, Pascal
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container_issue 46
container_start_page eadi1160
container_title Science advances
container_volume 9
creator Gu, Ruizhe
Juvé, Vincent
Laulhé, Claire
Bouyanfif, Houssny
Vaudel, Gwenaëlle
Poirier, Aurélie
Dkhil, Brahim
Hollander, Philippe
Paillard, Charles
Weber, Mads C.
Sando, Daniel
Fusil, Stéphane
Garcia, Vincent
Ruello, Pascal
description Ultrashort light pulses induce rapid deformations of crystalline lattices. In ferroelectrics, lattice deformations couple directly to the polarization, which opens the perspective to modulate the electric polarization on an ultrafast time scale. Here, we report on the temporal and spatial tracking of strain and polar modulation in a single-domain BiFeO 3 thin film by ultrashort light pulses. To map the light-induced deformation of the BiFeO 3 unit cell, we perform time-resolved optical reflectivity and time-resolved x-ray diffraction. We show that an optical femtosecond laser pulse generates not only longitudinal but also shear strains. The longitudinal strain peaks at a large amplitude of 0.6%. The access of both the longitudinal and shear strains enables to quantitatively reconstruct the ultrafast deformation of the unit cell and to infer the corresponding reorientation of the ferroelectric polarization direction in space and time. Our findings open new perspectives for ultrafast manipulation of strain-coupled ferroic orders. X-ray and visible laser pulses enable tracking of ultrafast strain and polarization modulation in a ferroelectric film.
doi_str_mv 10.1126/sciadv.adi1160
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subjects Condensed Matter
Physics
title Temporal and spatial tracking of ultrafast light-induced strain and polarization modulation in a ferroelectric thin film
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