2021
DOI: 10.1016/j.jmmm.2020.167387
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Surface lattice resonance-based magneto-plasmonic switch in NiFe patterned nano-structure

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Cited by 3 publications
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“…where M and T p (AEM) represent the magnetization (parallel to the z-axis) and transmittance amplitude, respectively. Among a variety of applications, like magnetization monitoring of ultra-thin magnetic films, 8 magnetic switching 27 and magnetic modulation 28 of optical signals, TMOKE is calling for a great deal of attention for improved figure of merit (FoM) in (bio)sensing and magnetometric applications, 29 through highly sensitive and very sharp Fano-like resonances. In spite of these advances, reports so far show values lower than 0.2, [24][25][26] i.e., an order of magnitude below the maximum (|TMOKE max | = 2) theoretical value (see eqn (1)), even for the case of magnetoplasmonic nanostructures.…”
Section: Introductionmentioning
confidence: 99%
“…where M and T p (AEM) represent the magnetization (parallel to the z-axis) and transmittance amplitude, respectively. Among a variety of applications, like magnetization monitoring of ultra-thin magnetic films, 8 magnetic switching 27 and magnetic modulation 28 of optical signals, TMOKE is calling for a great deal of attention for improved figure of merit (FoM) in (bio)sensing and magnetometric applications, 29 through highly sensitive and very sharp Fano-like resonances. In spite of these advances, reports so far show values lower than 0.2, [24][25][26] i.e., an order of magnitude below the maximum (|TMOKE max | = 2) theoretical value (see eqn (1)), even for the case of magnetoplasmonic nanostructures.…”
Section: Introductionmentioning
confidence: 99%