Probing Ultrafast Dynamics of Ferroelectrics by Time‐Resolved Pump‐Probe Spectroscopy

Zhang, Yuan; Dai, Junfeng; Zhong, Xiangli; Zhang, Dongwen; Zhong, Gaokuo; Li, Jiangyu

doi:10.1002/advs.202102488

Cited by 24 publications

(9 citation statements)

References 115 publications

(289 reference statements)

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“…Among the multitude of optical control schemes for various ferroic order parameters, we focus here on the control of the ferroelectric dipole moment using terahertz electric field transients. While other schemes for manipulating the ferroelectric order may be feasible [4][5][6][7][8][9][10][11][12][13] , this method of control is appealing due to its conceptual simplicity -electric field E couples directly to the electric dipole d via the −d • E energy term. The ferroelectric instability is often driven by the soft phonon mode that is resonant with the THz electric field, which means that this frequency approaches the fastest possible ferroelectric switching rates 14 .…”

Section: Introductionmentioning

confidence: 99%

Terahertz pulse induced second harmonic generation and Kerr effect in the quantum paraelectric KTaO3

Peng

Dammak

et al. 2023

Phys. Rev. B

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We present a joint experimental and computational study of second harmonic generation and Kerr effect induced by intense terahertz electric fields in the quantum paraelectric material KTaO 3 .The single-cycle THz electric pulses induce the free induction decay of the polar soft phonon mode and a ferroelectric polarization response that lasts for several picoseconds in both experiment and computation. We observe a much longer-lasting (43 ps) transient Kerr effect that follows the THz excitation. We explain the disparity in the relaxation times between the THz-induced second harmonic generation and Kerr effect by the presence of the polar nanoregions intrinsic to KTaO 3 .The origin of the slow THz Kerr effect dynamics is not presently understood. We speculate that it may be associated with the rotational motion of polar nanoregions due to the materials proximity to the ferroelectric phase transition.

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Section: Introductionmentioning

confidence: 99%

Terahertz pulse induced second harmonic generation and Kerr effect in the quantum paraelectric KTaO3

Peng

Dammak

et al. 2023

Phys. Rev. B

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“…In piezoelectric and ferroelectric materials, the couplings between lattice distortions and the polar order are pivotal for key applications, such as smart electromechanical microelectronic components, spintronic memories, or advanced photonics (1)(2)(3)(4)(5)(6)(7)(8). With the demand for high-rate data processing, the control of these couplings at ultrafast time scales, i.e., in the picosecond range, is desirable.…”

Section: Introductionmentioning

confidence: 99%

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

Gu,

Juvé,

Laulhé

et al. 2023

Sci. Adv.

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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.

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“…[10][11][12][13][14] Recently, the dynamic process of ferroelectrics has attracted intensive research interest, and many efforts have been made to track their ultrafast dynamic behavior in real-time. [15][16][17][18][19][20][21] Experimentally, research on the ultrafast dynamics of ferroelectrics has mainly focused on ultrafast polarization dynamics and modulation, [22,23] photopolarization, and mechanics, [24,25] phase transition, [26] electronphonon/phonon-polariton/electric-magnetic coupling, [27,28] carrier dynamics and radiative recombination. [29] However, there are few types of ferroelectric [7] studies investigating the ECE through EFP.…”

Section: Introductionmentioning

confidence: 99%

Designing Ultrafast Cooling Rate for Room Temperature Electrocaloric Effects by Phase‐Field Simulations

Shao

Shi

Wang

et al. 2022

Advcd Theory and Sims

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Due to miniaturization and environmental friendliness, the electrocaloric effect is expected to be applied to refrigerate electronic chips and microdevices. Unlike the conventional electrocaloric effect that focuses on the temperature change, the ultrafast cooling rate is crucial to heat transport in future device units. In this work, controlling the duration of ultrafast electric field pulse on a nanosecond scale (the frequency ∼ GHz), the instant electrocaloric effect is realized in BaTiO 3 and Ba (1−x) Sr x TiO 3 systems based on the modified phase-field method. A significant ultrafast cooling rate of 10 8 K s −1 can be achieved due to the application of ultrafast electric field pulse within nanoseconds, which proved to be more efficient than the constant electric field. Furthermore, multiple electric field pulses are designed to realize the cyclic ultrafast cooling. This study provides the fundamental theoretical guidance for ultrafast cooling in solid-state refrigeration.

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Probing Ultrafast Dynamics of Ferroelectrics by Time‐Resolved Pump‐Probe Spectroscopy

Cited by 24 publications

References 115 publications

Terahertz pulse induced second harmonic generation and Kerr effect in the quantum paraelectric KTaO3

Terahertz pulse induced second harmonic generation and Kerr effect in the quantum paraelectric KTaO3

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

Designing Ultrafast Cooling Rate for Room Temperature Electrocaloric Effects by Phase‐Field Simulations

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