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Converse magneto-electric effects in a core–shell multiferroic nanofiber by electric field tuning of ferromagnetic resonance

Ying Liu, G. Sreenivasulu, Peng Zhou, Juefeng Fu, Д. А. Филиппов, Wenli Zhang, Tiejun Zhou, Tianjin Zhang, Piyush Shah, Michael R. Page, G. Srinivasan, Samuel Berweger, Thomas M. Wallis, Pavel Kaboš

2020Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Abstract This report is on studies directed at the nature of magneto-electric (ME) coupling by ferromagnetic resonance (FMR) under an electric field in a coaxial nanofiber of nickel ferrite (NFO) and lead zirconate titanate (PZT). Fibers with ferrite cores and PZT shells were prepared by electrospinning. The core–shell structure of annealed fibers was confirmed by electron- and scanning probe microscopy. For studies on converse ME effects, i.e., the magnetic response of the fibers to an applied electric field, FMR measurements were done on a single fiber with a near-field scanning microwave microscope (NSMM) at 5–10 GHz by obtaining profiles of both amplitude and phase of the complex scattering parameter S 11 as a function of bias magnetic field. The strength of the voltage-ME coupling A v was determined from the shift in the resonance field H r for bias voltage of V = 0–7 V applied to the fiber. The coefficient A v for the NFO core/PZT shell structure was estimated to be − 1.92 kA/Vm (− 24 Oe/V). A model was developed for the converse ME effects in the fibers and the theoretical estimates are in good agreement with the data.

Topics & Concepts

Materials scienceElectric fieldFerrite (magnet)Ferromagnetic resonanceScanning electron microscopeCondensed matter physicsNuclear magnetic resonanceLead zirconate titanateFerromagnetismNanofiberMagnetic fieldComposite materialFerroelectricityOptoelectronicsDielectricMagnetizationPhysicsQuantum mechanicsMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsDielectric properties of ceramics
Converse magneto-electric effects in a core–shell multiferroic nanofiber by electric field tuning of ferromagnetic resonance | Litcius