Geodesic
Simulation of high-frequency information recording
Čelâbinskij fiziko-matematičeskij žurnal, Tome 6 (2021) no. 4, pp. 497-505.

Voir la notice de l'article provenant de la source Math-Net.Ru

The paper considers the nonlinear dynamics of an ensemble of single-domain interacting particles under the influence of a radio-frequency pulse of a magnetic field. The possibility of reorientation of magnetization vectors upon excitation by radio-frequency pulse was demonstrated. Changes in the electromagnetic response from the ensemble of particles was investigated. The analysis of the responses spectra of the ensemble of particles perfomed. A splitting of the spectrum under the influence of a radio pulse of a magnetic field was revealed.
Keywords: magnetization reversal, reorientation of magnetization, single-domain particles. 
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     author = {I. A. Chuprov and L. S. Nosov and F. F. Asadullin and D. A. Pleshev and V. S. Vlasov and L. N. Kotov},
     title = {Simulation of high-frequency information recording},
     journal = {\v{C}el\^abinskij fiziko-matemati\v{c}eskij \v{z}urnal},
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I. A. Chuprov; L. S. Nosov; F. F. Asadullin; D. A. Pleshev; V. S. Vlasov; L. N. Kotov. Simulation of high-frequency information recording. Čelâbinskij fiziko-matematičeskij žurnal, Tome 6 (2021) no. 4, pp. 497-505. http://geodesic.mathdoc.fr/item/CHFMJ_2021_6_4_a9/

[1] Kotov L. N., Nosov L. S., “Rf magnetic reversal in one-domain particle array”, MISM: book of abstracts (Moscow, June 25–30, 2005), MSU, Moscow, 2005, 453–454

[2] Kotov L.N., Nosov L.S. Asadullin F.F., “Changes in the magnetic structure of ensembles of single-domain particles and their response to the radio-frequency pulse of the magnetic field”, Journal of Technical Physics, 78:5 (2008), 60–65

[3] Okamoto S., Igarashi M., Kikuchi N., Kitakami O., “Microwave assisted switching mechanism and its stable switching limit”, Journal of Applied Physics, 107 (2010), 123914 | DOI

[4] Vlasov V. S., Lomonosov A. M., Golov A. V., Kotov L. N., Besse V., Alekhin A., Kuzmin D. A., Bychkov I. V., Temnov V. V., “Magnetization switching in bistable nanomagnets by picosecond pulses of surface acoustic waves”, Physical Review B, 101 (2020), 024425 | DOI

[5] Wei-Gang Yang, Schmidt H., “Acoustic control of magnetism toward energy-efficient applications”, Applied Physics Reviews, 8 (2021), 021304 | DOI

[6] Nozakia Y., Ohta M., Taharazako S., Tateishi K., Yoshimura S., Matsuyama K., “Magnetic force microscopy study of microwave-assisted magnetization reversal in submicron-scale ferromagnetic particles”, Applied Physics Letters, 91 (2007), 082510 | DOI

[7] Woltersdorf G., Back C. H., “Magnetization dynamics due to pure spin currents in magnetic double layers”, Physical Review Letters, 99 (2007), 246603 | DOI

[8] Gurevich A.G., “Magnetic resonance in ferrites and antiferromagnets”, Nauka Publ., Moscow, 1973 (In Russ.)

[9] Bordovitsina T.V., Modern numerical methods in problems of celestial mechanics, Nauka Publ., Moscow, 1984 (In Russ.)

[10] Kotov L.N., Nosov L.S., Magnetization reversal in ensembles of nanoparticles and their spectra, State University, Syktyvkar, 2008 (In Russ.)