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1. Ferromagnetic Resonance in Permalloy Metasurfaces

   https://doi.org/10.1007/s00723-021-01347-w  

   Noginova, N.; Gubanov, V.; Shahabuddin, M.; Gubanova, Yu.; Nesbit, S.; Demidov, V. V.; Atsarkin, V. A.; Beginin, E. N.; Sadovnikov, A. V. (July 2021, Applied Magnetic Resonance)

   null (Ed.)

   Permalloy films with one-dimensional profile modulation of submicron periodicity are fabricated based on commercially available DVD-R discs and studied using ferromagnetic resonance method and micromagnetic numerical simulations. The main resonance position shows in-plane angular dependence which is strongly reminiscent of that in ferromagnetic films with uniaxial magnetic anisotropy. The main signal and additional low-field lines are attributed to multiple standing spin-wave resonances defined by the grating period. The results may present interest in magnetic metamaterials and magnonics applications. 

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2. Magnetically dependent photovoltages in permalloy films and gratings

   https://doi.org/10.1038/s41598-025-85817-2  

   Rab, Md Afzalur; Keene, David W; Nesbit, Sean; Baker, Terence; Noginova, Natalia (December 2025, Scientific Reports)
3. Spin–Orbit Torques in NbSe2/Permalloy Bilayers

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4. Magneto-dependent plasmon drag in permalloy structures

   Shahabuddin, Mohammad; Keene, David; Noginova, Natalia (May 2020, CLEO: QELS_Fundamental Science)

   Plasmon-enhanced photovoltages in 1D profile-modulated permalloy films strongly depend on magnetic field, with a characteristic hysteresis. The effect is discussed in terms of the anomalous Nernst effect. 

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5. Magnetically dependent plasmon drag in permalloy structures

   https://doi.org/10.1364/JOSAB.419818  

   Shahabuddin, Mohammad; Keene, David_W; Durach, Maxim; Posvyanskii, Vladimir_S; Atsarkin, Vadim_A; Noginova, Natalia (June 2021, Journal of the Optical Society of America B)

   Significant photovoltages are observed in permalloy grating-like structures in response to pulsed laser light illumination. Electrical signals are enhanced at plasmon resonance conditions and show a clear dependence on the magnetic field with a characteristic hysteresis. Estimations show that the effect could not be explained solely by laser-induced heating. Alternative mechanisms are discussed. 

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