Magnetoelectric coupling across the interface of multiferroic nanocomposites

Yao, Xiefei; Ma, Jing; Lin, Yuanhua; Chen, Nan; Zhang, Jinxing

doi:10.1007/s40843-015-0024-7

Cited by 20 publications

(4 citation statements)

References 88 publications

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“…Zero-momentum spin wave features close to the A g mode in frequency have been observed [34]. This work highlights the potential to manipulate spin waves through spin-phonon and magnetoelectric coupling in new ferromagnetic 2D materials to produce novel spintronic devices [35].…”

Section: Discussionmentioning

confidence: 52%

Layer dependence of stacking order in nonencapsulated few-layer CrI3

et al. 2019

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Long-range magnetic orders in atomically thin ferromagnetic CrI 3 trigger new fascinating physics and application perspectives. The physical properties of two-dimensional (2D) ferromagnetism CrI 3 are significantly influenced by interlayer spacing and stacking order, which are sensitive to the hydrostatic pressure and external environments. However, there remains debate on the stacking order at low temperature. Here, we study the interlayer coupling and stacking order of non-encapsulated 2-5 layer and bulk CrI 3 at 10 K by Raman spectroscopy; demonstrate a rhombohedral stacking in both antiferromagnetic and ferromagnetic CrI 3 . The opposite helicity dependence of A g and E g modes arising from phonon symmetry further validates the rhombohedral stacking. An anomalous temperature-dependent behavior is observed due to spin-phonon coupling below 60 K. Our study provides insights into the interlayer coupling and stacking orders of 2D ferromagnetic materials.

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Section: Discussionmentioning

confidence: 52%

Layer dependence of stacking order in nonencapsulated few-layer CrI3

et al. 2019

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“…On the other hand, the metallic and oxide phases exhibit vertical epitaxial coupling, which is especially interesting when dealing with magnetic nanocomposites. Indeed, pronounced differences in lattice parameters between the ma-trix and the metallic nanoinclusions paves the way for magnetic anisotropy control via strain engineering 10 and synthesis of artificial multiferroics 11,12 .…”

Section: Introductionmentioning

confidence: 99%

Growth of vertically aligned nanowires in metal–oxide nanocomposites: kinetic Monte-Carlo modeling versus experiments

et al. 2018

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We employ kinetic Monte-Carlo simulations to study the growth process of metal-oxide nanocomposites obtained via sequential pulsed laser deposition. Using Ni-SrTiO3 (Ni-STO) as a model system, we reduce the complexity of the computational problem by choosing a coarse-grained approach mapping Sr, Ti and O atoms onto a single effective STO pseudo-atom species. With this ansatz, we scrutinize the kinetics of the sequential synthesis process, governed by alternating deposition and relaxation steps, and analyze the self-organization propensity of Ni atoms into straight vertically aligned nanowires embedded in the surrounding STO matrix. We finally compare the predictions of our binary toy model with experiments and demonstrate that our computational approach captures fundamental aspects of self-assembled nanowire synthesis. Despite its simplicity, our modeling strategy successfully describes the impact of relevant parameters like the concentration or laser frequency on the final nanoarchitecture of metal-oxide thin films grown via pulsed laser deposition.

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“…This is a kind of product property by magnetostriction and piezoelectricity, which can be regarded as the transfer of the mechanical energy. The induced mechanical stress can finally lead to a change in the materials' relative permittivity [13].…”

Section: Design Methodsmentioning

confidence: 99%

Novel Electrostatically Tunable Frequency Selective Surface with PZT/FeGaB Films

Feng¹,

Jiang²,

Zhang³

et al. 2017

dtmse

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Abstract. Strong magnetoelectric (ME) coupling can be realized in multiferroic heterostructures, which have led to a variety of devices. Here, a novel electrostatically tunable frequency selective surface (FSS) with PZT/FeGaB films is reported, which shows a high resonant frequency tunability. A high X to Ku band resonant frequency tunability of ∆f = 2.75 GHz or ∆f/f= 24% was demonstrated in the FSS with PZT/FeGaB films, which was 10 times of the similar FSS structure with only FeGaB film. This electrostatically tunable FSS with strong ME coupling will provide great opportunities for more energy efficient, less noisy, compact and light-weight microwave devices with frequency tunabilities.

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Magnetoelectric coupling across the interface of multiferroic nanocomposites

Cited by 20 publications

References 88 publications

Layer dependence of stacking order in nonencapsulated few-layer CrI3

Layer dependence of stacking order in nonencapsulated few-layer CrI3

Growth of vertically aligned nanowires in metal–oxide nanocomposites: kinetic Monte-Carlo modeling versus experiments

Novel Electrostatically Tunable Frequency Selective Surface with PZT/FeGaB Films

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