PROBABILITY MODEL OF MICROWAVE MAGNETIC RESONANCE
IN 3D-MAGNET NANOCOMPOSITES OF OPAL MATRICES

Golovanov Oleg Alexandrovich, Doctor of physical and mathematical sciences, professor, head of sub-department of mathematics and descriptive geometry, branch of the Military research and educational center of the Land Forces “Combined Arms Academy of the Armed Forces of the Russian Federation” (Penza), golovanovol@mail.ru
Makeeva Galina Stepanovna, Doctor of physical and mathematical sciences, professor, sub-department of radio
engineering and radio electronic systems, Penza State University, radiotech@pnzgu.ru
Chirkina Marina Alexandrovna, Candidate of engineering sciences, associate professor, sub-department of applied mathematics and informatics,Penza State University of Architecture and Construction, chm-77@mail.ru
Efimov Aleksey Andreevich, Postgraduate student, sub-department of radioengineering systems, branch of the Military research and educational center of the Land Forces “Combined Arms Academy of the Armed Forces of the Russian Federation” (Penza), renegat555@yahoo.com

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The authors have developed a unique probabilistic model of microwave ferromagnetic resonance (FMR) in 3D magnetic opal nanocomposites taking into account normal distribution of a random value H_r of FMR magnetic field of nanoparticles.

probabilistic model, 3D-magnetic nanocomposite, ferromagnetic resonance, opal matrix.