Research of nonlinear processes in the higher zones of instability of distributed parametrical zonal systems
DOI:
https://doi.org/10.1109/ICATT.2015.7136881Keywords:
distributed thin-film ferrostructures spin electronics, nonlinear parametrical zonal systems, ultraharmonics of current, higher zones of instabilityAbstract
Analysis of nonlinear phenomena and processes in distributed thin-film ferrostructures is carried out from positions of spin electronics (spintronics) at influence of various intensity external electric-and-magnetic fields. The conclusion is made on possibility of realization of resonant schemes constructed on nonlinear parametrical zonal systems working at ultraharmonics of current, in the higher zones of oscillations instability, in microwave and terahertz ranges, on thin-film ferromagnetic structures as the part of composite environments.References
YUDINCEV, V. Post-CMOS Structure: Global Call of Nanoelectronics. Elektronika STB, 2012, v.3, p.48-58.
IGNATIEV, A.A.; LYASHENKO, A.V. Heteromagnetic Microelectronics. Microsystems of Active Type. Moscow: Nauka, 2006, 867 p. [in Russian].
LETJUK, L.M.; KOSTISHIN, V.G.; GONCHAR, A.V. Technology of Ferromagnetic Materials of Magneto-Electronics. Moscow: Misis, 2005, 352 p. [in Russian].
KRAVCHENKO, A.F. Magnetic Electronics. Novosibirsk: SORAN, 2002, 400 p. [in Russian].
NAJDEN, E.P.; RODIONOV, V.A. The Analysis of Basis State of Ferromagnetic Particle. Izv. VUZ. Fizika, 2012, v.55, n.4, p.48-52.
VASHKOVSKY, A.V.; STALMAHOV, V.S.; SHARAEVSKY, J.P. Magneto-Static Wave in Microwave Electronics. Saratov: SSU, 320 p. [in Russian].
POPKOV, A.F.; ZVEZDIN, K.A.; CHINENKOV, M.J. Spin Transport and Problems of Magnetic Operative Memory and Storage (MRAM). Inzhenernaya Fizika, 2012, v.9, p.19-34.
IGNATIEV, A.A.; LYASHENKO, A.V. Magneto-Electronics of Microwave and Terahertz Frequency Range in Ferrite Thin Films. Moscow: Nauka, 2005, 380 p.
SEMIKOV, S. The Obstinate Secret of Magnetism. Inzhener (Engineer), 2012, v.11, p.26-29.
SAMOYLOVICH, M.I.; TALLIS, A.L. The Crystal Multiferroics and Features of Symmerty of their Magnetic Subsystems. Nano- and Micro-System Techniques, 2011, v.1, p.31-36.
GULJAEV, J.V.; BUGAEV, A.C.; MITJAGIN, A.J. Prospects of Using of Segnetoelectric (Ferroelectric) Materials for Microwave Frequency Arrangements. Uspekhi Sovremennoi Radioelektroniki, 2011, v.12, p.3-10.
GULJAEV, J.V.; NIKITOV, S.A. Photonic and Magneto-Photonic Crystals - the New Environment for Information Transfer. Radiotekhnika, 2003, v.8, p.5-23.
SHALAMOV, G.N. Fractals, Fractal Antennas, Frequency- Selective Surfaces and Metamaterials on the Basis Fractal Technologies. Broad-Band and Frequency-Independent Decisions. Proc. of FSPC on Obshchie Voprosy Electronnoy Tekhniki, 2010, Rostov-on-Don, Russia. Rostov-on-Don: Scientific Research Institute of Radio Communication, 2010, v.1, p.43-64.
CHERCKESOVA, L.V. The Influence of Strong External Electromagnetic Fields of Rating on Substances of Radioelectronic Technics with Domain Structure. Nelineinyi Mir, 2011, v.9, n.5, p.317-323.