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• W2094611729 abstract "Two phenomenological models for considering linear magneto-optical (MO) effects in a ferromagnetically ordered multilayer, which necessarily comprises ultrathin layers, are described assuming that its response can be represented in terms of electric polarizations. As an alternative to a commonly used finite thickness model, an exceptionally simple analytical model is proposed to avoid dealing with thicknesses of the ultrathin layers explicitly, since these parameters might be ill defined. Incident light is assumed to be a plane monochromatic wave, the ultrathin layers (embedded equidistantly into a nonmagnetic optically isotropic medium) are treated as ideal surfaces and corresponding surface polarizations as perturbations. The problem of relating the polarizations to the fundamental electric field through surface susceptibility tensors is addressed, since intrinsic symmetry of the tensors may not be consistent with that given by the Onsager principle. To solve this problem, the general symmetry principle for reflection matrices, due to Shelankov and Pikus, is slightly adjusted for the use within both models. Symmetry analysis based on the Neumann principle is outlined to reveal the form of the tensors through their invariance under magnetic and, alternatively, ordinary point groups (when the linear approximation with respect to magnetization is pursued). New analytical results presented here for the reflection matrix of the multilayer are valid for any relevant ordinary point group and therefore take into account the in-plane (rotational) anisotropy that may be encountered when observing both optical and MO effects. Although both models are equivalent (this is shown merely for the groups $4mm,$ $3m,$ $6mm,$ and $ensuremath{infty}m),$ that proposed here can become more preferable in magneto-optics. Interesting and helpful analytical expressions for characterizing the conventional MO Kerr effects are provided along with their numerical illustrations." @default.
• W2094611729 created "2016-06-24" @default.
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• W2094611729 date "2002-07-10" @default.
• W2094611729 modified "2023-09-27" @default.
• W2094611729 title "Magneto-optical characterization of ferromagnetic ultrathin multilayers in terms of surface susceptibility tensors" @default.
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• W2094611729 doi "https://doi.org/10.1103/physrevb.66.024414" @default.
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