Eigen electric moments of magnetic-dipolar modes in quasi-2D ferrite disk particles

A property associated with a vortex structure becomes evident from an analysis of confinement phenomena of magnetic oscillations in a quasi-2D ferrite disk with a dominating role of magnetic-dipolar (non-exchange-interaction) spectra. The vortices are guaranteed by the chiral edge states of magnetic-dipolar modes which result in appearance of eigen electric moments oriented normally to the disk plane. Due to the eigen-electric-moment properties, a ferrite disk placed in a microwave cavity is strongly affected by the cavity RF electric field with a clear evidence for multi-resonance oscillations. For different cavity parameters, one may observe the "resonance absorption" and "resonance repulsion" behaviors

Mesoscopic quantized properties of magnetic-dipolar-mode oscillations in disk ferromagnetic particles

Magnetic dipolar mode or magnetostatic (MS) oscillations in ferrite samples have the wavelength much smaller than the electromagnetic wavelength at the same frequency and, at the same time, much larger than the exchange interaction spin wavelength. This intermediate position between the electromagnetic and spin wave (exchange interaction) processes reveals very special behaviors of the geometrical effects. It was shown recently that magnetic dipolar mode oscillations in a normally magnetized ferromagnetic disk are characterized by discrete energy levels resulting from the structural confinement. In this article we give results of the energy spectra in MS wave ferrite disks taking into account nonhomogeneity of the internal DC magnetic field

Портал «Единое окно» как платформа для репозитория учебно-методических материалов, размещаемых со свободными лицензиями

The paper provides information on a pilot project aimed at setting up a Russian-language repository of Open Educational Resources (OER) developed for higher education institutions. The resources will be available under open licenses (Creative Commons family or other free licenses). This is a joint project of the State Institute of Information Technology and Telecommunications INFORMIKA and the UNESCO Institute for Information Technologies in Education (IITE).В докладе рассматривается проект создания хранилища учебно-методических материалов, создаваемых в вузах и размещаемых в открытом доступе со свободными лицензиями. Данный проект реализуется как совместная инициатива Государственного научно-исследовательского института информационных технологий и телекоммуникаций "Информика" и Института ЮНЕСКО по информационным технологиям в образовании