1. Li Z., Yang Z. Microwave absorption properties and mechanism for hollow Fe3O4 nanosphere composites // Journal of Magnetism and Magnetic Materials. 2015. Vol. 387. P. 131-138.
2. Magnetite hollow microspheres with a broad absorption bandwidth of 11.9 GHz: toward promising lightweight electromagnetic microwave absorption / Ivan Shanenkov, Alexander Sivkov, Alexander Ivashutenko et al. // Phys. Chem. Chem. Phys. 2017. Vol. 19. P. 19975-19983.
3. Synthesis of hollow Fe3O4 particles via one-step solvothermal approach for microwave absorption materials: effect of reactant concentration, reaction temperature and reaction time / Mingxu Sui, Xiaodong Sun, Hongfei Lou et al. // Journal of Materials Science: Materials in Electronics. 2018. May. Vol. 29, no. 9. P. 7539-7550.
4. Low weight hollow microspheres of iron with thin dielectric coating: Synthesis and microwave permeability / Anastasia Kosevich, Elizaveta Petrusevich, Sergey Maklakov et al. // Coatings. 2020.Vol. 10, no. 10.
5. The size dependence of microwave permeability of hollow iron particles / Anastasia V. Artemova, Sergey S. Maklakov, Alexey V. Osipov et al. // Sensors. 2022. Vol. 22, no. 8.
6. Influence of hydrogen reduction stage conditions on the microwave properties of fine iron powders obtained via a spray-pyrolysis technique / Anastasia V. Artemova, Sergey S. Maklakov, Artem O. Shiryaev et al. // Magnetism. 2023. Vol. 3, no. 2. P. 90-101.
7. Ландау Л.Д., Лифшиц Л.М. Электродинамика сплошных сред. Наука, 1992.
8. Сбойчаков А.О. О магнитной энергии ферромагнитной частицы с полостью // Современная электродинамика. 2023. Vol. 5 (7). P. 15.
9. McKeever C., Ogrin F. Y., Aziz M. M. Microwave magnetization dynamics in ferromagnetic spherical nanoshells // Phys. Rev. B. 2019. Aug. Vol. 100. P. 054425.
10. Ландау Л.Д., Лифшиц Л.М. Теория поля, 6 изд. М.: Hаука, 1973. Vol. 2.
11. Brown William Fuller J. Micromagnetics, Domains, and Resonance // Journal of Applied Physics. 1959. 04. Vol. 30, no. 4. P. S62-S69.
12. Aharoni A. Exchange resonance modes in a ferromagnetic sphere // Journal of Applied Physics. 1991.06. Vol. 69, no. 11. P. 7762-7764.
13. Aharoni A. Effect of surface anisotropy on the exchange resonance modes // Journal of applied physics. 1997. Vol. 81, no. 2. P. 830-833.
14. Size dependence of microwave permeability of spherical ferromagnetic particles / G Viau, F Fi’evet-Vincent, F Fi’evet et al. // Journal of applied physics. 1997. Vol. 81, no. 6. P. 2749-2754.