L
L. C. Phillips
Researcher at University of Cambridge
Publications - 17
Citations - 1095
L. C. Phillips is an academic researcher from University of Cambridge. The author has contributed to research in topics: Magnetization & Ferroelectricity. The author has an hindex of 9, co-authored 16 publications receiving 950 citations. Previous affiliations of L. C. Phillips include Université Paris-Saclay & University of Paris-Sud.
Papers
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Journal ArticleDOI
Electric-field control of magnetic order above room temperature
Ryan O. Cherifi,Viktoria V. Ivanovskaya,L. C. Phillips,Alberto Zobelli,Ingrid C. Infante,Eric Jacquet,Vincent Garcia,Stéphane Fusil,Stéphane Fusil,Patrick R. Briddon,Nicolas Guiblin,Alexandra Mougin,Ahmet Unal,Florian Kronast,Sergio Valencia,Brahim Dkhil,Agnès Barthélémy,Manuel Bibes +17 more
TL;DR: In this article, a small electric field is used to switch a FeRh thin film from anti-to ferromagnetic above room temperature, by taking advantage of the strong magnetoelectric coupling with a BaTiO3 substrate.
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Giant and reversible extrinsic magnetocaloric effects in La0.7Ca0.3MnO3 films due to strain.
Xavier Moya,Luis E. Hueso,Francesco Maccherozzi,Alexandr Tovstolytkin,D. I. Podyalovskii,Caterina Ducati,L. C. Phillips,Massimo Ghidini,Massimo Ghidini,Ondrej Hovorka,Andreas Berger,Mary E. Vickers,Emmanuel Defay,Sarnjeet S. Dhesi,Neil D. Mathur +14 more
TL;DR: This work creates giant and reversible extrinsic magnetocaloric effects in epitaxial films of the ferromagnetic manganite La( 0.7)Ca(0.3)MnO(3) using strain-mediated feedback from BaTiO( 3) substrates near a first-order structural phase transition.
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Large reversible caloric effect in FeRh thin films via a dual-stimulus multicaloric cycle
TL;DR: A demonstration of a multicaloric refrigeration cycle in FeRh thin films via coupling to a ferroelectric BaTiO3 substrate that yields larger reversible caloric effects than either stimulus alone and suggests numerous designs for efficient solid-state cooling applications.
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Linear anhysteretic direct magnetoelectric effect in Ni0.5Zn0.5Fe2O4/poly(vinylidene fluoride-trifluoroethylene) 0-3 nanocomposites
Pedro Martins,Xavier Moya,L. C. Phillips,Sohini Kar-Narayan,Neil D. Mathur,Senentxu Lanceros-Méndez +5 more
TL;DR: In this paper, a maximum magnetoelectric voltage coefficient of 1.35mV−cm−1−Oe−1 was obtained for samples with 15% ferrite using a 40 kHz resonant signal.
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Perpendicular Local Magnetization Under Voltage Control in Ni Films on Ferroelectric BaTiO3 Substrates
Massimo Ghidini,Massimo Ghidini,Francesco Maccherozzi,Xavier Moya,L. C. Phillips,W. Yan,Jordane Soussi,Nicolas Métallier,Mary E. Vickers,Nina ‐J. Steinke,Rhodri Mansell,Crispin H. W. Barnes,Sarnjeet S. Dhesi,Neil D. Mathur +13 more
TL;DR: High-resolution magnetoelectric imaging is used to demonstrate electrical control of the perpendicular local magnetization associated with 125 nm-wide magnetic stripe domains in 100-nm-thick Ni films, which may be exploited for perpendicular recording in nanopatterned hybrid media.