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Magnetoelectric Coupling in Membrane Thin-Film Heterostructures.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Magnetoelectric Coupling in Membrane Thin-Film Heterostructures./
作者:
Lindemann, Shane M.
面頁冊數:
1 online resource (143 pages)
附註:
Source: Dissertations Abstracts International, Volume: 84-03, Section: B.
Contained By:
Dissertations Abstracts International84-03B.
標題:
Condensed matter physics. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=29323738click for full text (PQDT)
ISBN:
9798841731313
Magnetoelectric Coupling in Membrane Thin-Film Heterostructures.
Lindemann, Shane M.
Magnetoelectric Coupling in Membrane Thin-Film Heterostructures.
- 1 online resource (143 pages)
Source: Dissertations Abstracts International, Volume: 84-03, Section: B.
Thesis (Ph.D.)--The University of Wisconsin - Madison, 2022.
Includes bibliographical references
Strain-coupling in ferromagnetic (FM) / ferroelectric (FE) multiferroic heterostructures shows promise to become the next generation of low-power, ultra-fast memory storage devices in addition to opening new avenues of fundamental scientific research. The relaxor ferroelectric (1-x)Pb(Mg1/3Nb2/3)O3-(x)PbTiO3 (PMN-PT) is an ideal candidate as the FE layer due to its giant piezoelectricity. By coupling with a FM overlayer, an applied bias across the PMN-PT results in the generation of large piezostrains which are transferred into the FM layer to alter the FM's magnetic anisotropy, resulting in a piezo-driven magnetoelectric (ME) effect. This has been demonstrated using bulk single crystals of PMN-PT coupled with FM overlayers, but the bulk dimensions required application of over 100V applied bias. For low power coupling to be achieved, thin films of PMN-PT must be used. Strain-mediated ME coupling in thin film heterostructures has proven to be difficult due to two major challenges: 1) Elastic clamping by the substrate acts to eliminate giant piezoelectricity in PMN-PT thin films. 2) The films must exhibit anisotropic in-plane strain to alter in-plane magnetic anisotropy of a FM overlayer. Our approach to overcome these challenges is through growth of epitaxial thin films of PMN-PT followed by release of the films from their substrate to make ME membranes. After release from the substrate, we observe a recovery of giant piezoelectricity in PMN-PT membranes and demonstrate successful ME coupling with Ni overlayers. We found that for (001) oriented PMN-PT membranes, the nominally isotropic in-plane strains are transformed into anisotropic in-plane strains through Piezotensor Engineering, i.e. an interaction between biased and unbiased regions dictated by the electrode geometry. In (011) PMN-PT membranes, intrinsic anisotropic in-plane strains result in a 90-degree rotation of Ni's in-plane anisotropy with only 3V bias across the PMN-PT, demonstrating that PMN-PT membranes can achieve low power ME coupling. The membrane assembled heterostructures will lead to novel strain-mediated devices through heterogeneous integration. Individual membranes of various materials, including complex oxides, III-V's, and 2-Dimensional (2D) materials, can be stacked together with the PMN-PT membranes providing an exciting pathway to study an extraordinary range of piezo-driven phenomena and functionalities.
Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2023
Mode of access: World Wide Web
ISBN: 9798841731313Subjects--Topical Terms:
3173567
Condensed matter physics.
Subjects--Index Terms:
MagnetoelectricIndex Terms--Genre/Form:
542853
Electronic books.
Magnetoelectric Coupling in Membrane Thin-Film Heterostructures.
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Source: Dissertations Abstracts International, Volume: 84-03, Section: B.
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Advisor: Eom, Chang-Beom.
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Includes bibliographical references
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Strain-coupling in ferromagnetic (FM) / ferroelectric (FE) multiferroic heterostructures shows promise to become the next generation of low-power, ultra-fast memory storage devices in addition to opening new avenues of fundamental scientific research. The relaxor ferroelectric (1-x)Pb(Mg1/3Nb2/3)O3-(x)PbTiO3 (PMN-PT) is an ideal candidate as the FE layer due to its giant piezoelectricity. By coupling with a FM overlayer, an applied bias across the PMN-PT results in the generation of large piezostrains which are transferred into the FM layer to alter the FM's magnetic anisotropy, resulting in a piezo-driven magnetoelectric (ME) effect. This has been demonstrated using bulk single crystals of PMN-PT coupled with FM overlayers, but the bulk dimensions required application of over 100V applied bias. For low power coupling to be achieved, thin films of PMN-PT must be used. Strain-mediated ME coupling in thin film heterostructures has proven to be difficult due to two major challenges: 1) Elastic clamping by the substrate acts to eliminate giant piezoelectricity in PMN-PT thin films. 2) The films must exhibit anisotropic in-plane strain to alter in-plane magnetic anisotropy of a FM overlayer. Our approach to overcome these challenges is through growth of epitaxial thin films of PMN-PT followed by release of the films from their substrate to make ME membranes. After release from the substrate, we observe a recovery of giant piezoelectricity in PMN-PT membranes and demonstrate successful ME coupling with Ni overlayers. We found that for (001) oriented PMN-PT membranes, the nominally isotropic in-plane strains are transformed into anisotropic in-plane strains through Piezotensor Engineering, i.e. an interaction between biased and unbiased regions dictated by the electrode geometry. In (011) PMN-PT membranes, intrinsic anisotropic in-plane strains result in a 90-degree rotation of Ni's in-plane anisotropy with only 3V bias across the PMN-PT, demonstrating that PMN-PT membranes can achieve low power ME coupling. The membrane assembled heterostructures will lead to novel strain-mediated devices through heterogeneous integration. Individual membranes of various materials, including complex oxides, III-V's, and 2-Dimensional (2D) materials, can be stacked together with the PMN-PT membranes providing an exciting pathway to study an extraordinary range of piezo-driven phenomena and functionalities.
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Condensed matter physics.
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Materials science.
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Magnetoelectric
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Thin Film
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http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=29323738
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