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Filimonov Yurii Aleksandrovich

Publications in Math-Net.Ru

  1. Magnetostatic surface waves losses caused by spin pumping in the ferrite/metal structure

    Fizika Tverdogo Tela, 66:7 (2024),  1088–1092
  2. The effect of van Hove singularities on spin pumping in the magnonic crystal/normal metal structure

    Fizika Tverdogo Tela, 66:7 (2024),  1068–1074
  3. Channeling of magnetostatic surface waves by decoration of ferrite films with metals

    Izv. Sarat. Univ. Physics, 24:1 (2024),  76–87
  4. Detection of focused beams of surface magnetostatic waves in YIG / Pt structures

    Izvestiya VUZ. Applied Nonlinear Dynamics, 32:3 (2024),  405–418
  5. Spin pumping in YIG/Pt structures: role of van Hove singularities

    Pis'ma v Zh. Èksper. Teoret. Fiz., 119:9 (2024),  676–683
  6. Propagation of spin waves in channels formed by decoration of the surfaces of yttrium-iron garnet films by thin metal areas

    Fizika Tverdogo Tela, 65:7 (2023),  1186–1193
  7. EMF generation by magnetostatic waves in the YIG(111)-Pt structure in weak bias fields

    Fizika Tverdogo Tela, 65:7 (2023),  1180–1185
  8. Frequency dependence of the spin mixing conductance of YIG|Pt structures upon MSSW spin pumping

    Fizika Tverdogo Tela, 65:6 (2023),  967–972
  9. Effect of the finite conductivity of a metal on properties of a magnetostatic backward volume wave in layered metallized structures

    Izv. Sarat. Univ. Physics, 23:1 (2023),  14–23
  10. Influence of parametric instability on spin pumping by dipole-exchange magnetostatic surface waves in YIG-pt structures

    Izvestiya VUZ. Applied Nonlinear Dynamics, 31:2 (2023),  225–242
  11. Investigation of the interference of magnetostatic surface waves using the inverse spin Hall effect

    Fizika Tverdogo Tela, 64:9 (2022),  1293–1297
  12. Particularities of spin wave propagation in magnonic crystals with nonuniform magnetization distribution across the thickness

    Fizika Tverdogo Tela, 64:9 (2022),  1255–1262
  13. Magnetic sensor based on spin waves

    Fizika Tverdogo Tela, 64:9 (2022),  1238–1242
  14. Influence of three-magnon decays on electromotive force generation by magnetostatic surface waves in integral YIG - Pt structures

    Izvestiya VUZ. Applied Nonlinear Dynamics, 30:5 (2022),  617–643
  15. Micromagnetic simulation of a “majority” logic gate based on the interference of spin waves’ caustics

    Zhurnal Tekhnicheskoi Fiziki, 92:8 (2022),  1151–1158
  16. The interference of magnetoelastic waves in an yttrium iron garnet film

    Fizika Tverdogo Tela, 63:9 (2021),  1258–1262
  17. Negative magnetoresistance in the $n$-InSb/YIG structure

    Fizika Tverdogo Tela, 63:9 (2021),  1253–1257
  18. Effects of geometry of thin-film microwaveguides based on yttrium iron garnet and position of microantennas on characteristics of excitation and transmission of magnetostatic waves in them

    Izv. Sarat. Univ. Physics, 21:3 (2021),  249–263
  19. Effect of probing signal on the output signals spectrum of nonlinear spin waves in a cross based on waveguides of iron-yttrium garnet film

    Izvestiya VUZ. Applied Nonlinear Dynamics, 29:5 (2021),  812–828
  20. Micromagnetic modeling of self-focusing effect of backward volume magnetostatic waves in iron-yttrium garnet films

    Izvestiya VUZ. Applied Nonlinear Dynamics, 29:2 (2021),  302–316
  21. Influence of the resonant interaction of surface magnetostatic waves with exchange modes on the EMF generation in YIG/Pt structures

    Zhurnal Tekhnicheskoi Fiziki, 91:10 (2021),  1504–1508
  22. Surface magnetostatic waves in yttrium–iron garnet with the surface subwave metastructure of a permalloy film

    Fizika Tverdogo Tela, 62:9 (2020),  1494–1498
  23. Magnetic field direction influence on the spectrum of spin waves output signals at three-magnon decay of magnetostatic surface waves in a cross based on waveguides of yttrium iron garnet film

    Izvestiya VUZ. Applied Nonlinear Dynamics, 28:2 (2020),  168–185
  24. Magnetoelastic properties of yttrium–iron garnet films manufactured by means of ion-beam sputtering onto Si and GaAs substrates

    Zhurnal Tekhnicheskoi Fiziki, 90:7 (2020),  1221–1226
  25. EMF generation by propagating magnetostatic surface waves in integrated thin-film Pt/YIG structure

    Fizika i Tekhnika Poluprovodnikov, 54:12 (2020),  1401
  26. Spin waves interference under excitation by focusing transducers: logic and signal processing

    Fizika i Tekhnika Poluprovodnikov, 54:12 (2020),  1400
  27. Propagation of spin waves in microstructures based on yttrium–iron garnet films decorated by a ferromagnetic metal

    Fizika Tverdogo Tela, 61:9 (2019),  1664–1671
  28. Micromagnetic modeling of spin-wave excitations in corrugated YIG films

    Fizika Tverdogo Tela, 61:9 (2019),  1652–1658
  29. The effect of parametric processes on the propagation of spin waves in cross-shaped structures based on waveguides from yttrium iron garnet films

    Izvestiya VUZ. Applied Nonlinear Dynamics, 27:3 (2019),  9–32
  30. Micromagnetic modeling of nonlinear interaction of lateral magnetostatic modes in cross-shaped structures based on waveguides from iron yttrium garnet films

    Izvestiya VUZ. Applied Nonlinear Dynamics, 27:2 (2019),  39–60
  31. Self-action effects in the propagation of surface magnetostatic wave pulses in a magnonic crystal–dielectric–metal structure

    Zhurnal Tekhnicheskoi Fiziki, 89:11 (2019),  1719–1725
  32. Interference of spin waves in arrays of microwaveguides based on yttrium-iron garnet films

    Zhurnal Tekhnicheskoi Fiziki, 89:11 (2019),  1712–1718
  33. Electrically controlled logical switch based on step waveguide from iron yttrium garnet film and piezoelectric actuator

    Zhurnal Tekhnicheskoi Fiziki, 89:7 (2019),  1044–1046
  34. Calculation of focusing spin wave transducers using the method of micromagnetic simulation

    Izv. Sarat. Univ. Physics, 18:2 (2018),  92–102
  35. Influence of annealing and argon pressure on the microcrystalline structure of magnetron-sputtered textured cobalt films

    Zhurnal Tekhnicheskoi Fiziki, 88:11 (2018),  1734–1742
  36. Magnetoelastic waves in submicron yttrium–iron garnet films manufactured by means of ion-beam sputtering onto gadolinium–gallium garnet substrates

    Zhurnal Tekhnicheskoi Fiziki, 88:7 (2018),  1060–1066
  37. Filtration of surface magnetostatic waves in yttrium iron garnet films of variable width excited by focusing transducers

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 44:16 (2018),  3–10
  38. Influence of parametric instability of magnetostatic surface spin waves on formation of defect modes in one-dimensional magnonic crystal with defect

    Izvestiya VUZ. Applied Nonlinear Dynamics, 25:2 (2017),  74–88
  39. Influence of input signal power on magnetostatic surface waves propagation in yttrium-iron garnet films on silicon substrates

    Izvestiya VUZ. Applied Nonlinear Dynamics, 25:1 (2017),  35–51
  40. Effect of bias voltage polarity of a substrate on the texture, microstructure, and magnetic properties of Ni films prepared by magnetron sputtering

    Fizika Tverdogo Tela, 58:6 (2016),  1206–1215
  41. Deposition of NiFe(200) and NiFe(111) textured films onto Si/SiO$_{2}$ substrates by DC magnetron sputtering

    Fizika Tverdogo Tela, 58:5 (2016),  1019–1023
  42. Formation of textured Ni(200) and Ni(111) films by magnetron sputtering

    Zhurnal Tekhnicheskoi Fiziki, 86:6 (2016),  126–131
  43. Influence of the working gas pressure on the magnetic properties and texture of magnetron-sputtered Fe/SiO$_{2}$/Si(100) polycrystalline films

    Zhurnal Tekhnicheskoi Fiziki, 86:5 (2016),  141–144
  44. Surface spin waves in one-dimensional magnonic crystals with two spatial periods

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 41:22 (2015),  66–73
  45. Magnetron sputtering of thin Cu(200) films on Ni(200)/SiO$_2$/Si substrates

    Zhurnal Tekhnicheskoi Fiziki, 84:7 (2014),  152–155
  46. The formation of the (200) and (110) textures in iron films prepared by magnetron sputtering

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 39:21 (2013),  10–17
  47. Spectrum and losses of surface magnetostatic waves in a 1D magnon crystal

    Zhurnal Tekhnicheskoi Fiziki, 81:2 (2011),  150–152
  48. Effect of ferrite magnonic crystal metallization on Bragg resonances of magnetostatic surface waves

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 37:21 (2011),  76–81
  49. Hybridization of spin-wave modes in a ferromagnetic microstrip

    Pis'ma v Zh. Èksper. Teoret. Fiz., 88:7 (2008),  534–538
  50. Ferromagnetic films with magnon bandgap periodic structures: Magnon crystals

    Pis'ma v Zh. Èksper. Teoret. Fiz., 77:10 (2003),  670–674
  51. Exchange stiffness and nonuniform exchange constant in $\mathrm{Ga},\mathrm{Sc}$-substituted YIG films

    Fizika Tverdogo Tela, 34:5 (1992),  1376–1383
  52. THERMAL EFFECT OF BAND ELECTRON FLOW ON THE DISTRIBUTION OF SURFACE MAGNETOSTATIC WAVES IN IRON-YTTRIUM GARNET-FILMS

    Zhurnal Tekhnicheskoi Fiziki, 62:11 (1992),  115–126
  53. INTERNAL MAGNETOSTATIC WAVES IN THE STRUCTURE WITH 2 ANISOTROPIC FERRITE LAYERS

    Zhurnal Tekhnicheskoi Fiziki, 62:1 (1992),  187–196
  54. SPACE-FREQUENCY SELECTION OF SURFACE MAGNETOOPTICAL WAVES IN THE FERRITE-ELECTRON FLOW STRUCTURE

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 17:7 (1991),  65–69
  55. Exchange radiative losses of Damon-Eshbach surface magnetostatic waves in YIG films

    Fizika Tverdogo Tela, 32:12 (1990),  3571–3578
  56. EFFECT OF CUBIC ANISOTROPY OF THE SPECTRUM OF SPIN-WAVES OF RANDOMLY MAGNETIZED IYG FILMS WITH A PLANE(111)

    Zhurnal Tekhnicheskoi Fiziki, 59:2 (1989),  186–189
  57. DEVELOPMENT OF MODULATION INSTABILITY OF MAGNETOSTATIC WAVES (MSW) IN FERRITE FILMS

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 15:2 (1989),  55–60
  58. MAGNETOSTATIC WAVES OF HIGH-FREQUENCY (APPROXIMATLY-GREATER-THAN-40-MEGAHERTZ) RANGE IN GA,SC-SUBSTITUTED IYG FILMS

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 14:19 (1988),  1733–1737
  59. Interval and chaos doubling under the 4-magnon decomposition of traveling magnetostatic waves in ferriteyttrium garnet-films

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 13:12 (1987),  736–740
  60. Óñèëåíèå áûñòðûõ ìàãíèòîóïðóãèõ âîëí â ñòðóêòóðå ôåððèò–ìåòàëëèçèðîâàííûé ïüåçîïîëóïðîâîäíèê ïîïåðå÷íûì ýëåêòðè÷åñêèì ïîëåì

    Fizika i Tekhnika Poluprovodnikov, 18:9 (1984),  1693–1696
  61. NON-DISSIPATIVE MECHANISM OF FAST MAGNETOELASTIC WAVE FILTRATION IN FERRITE STRUCTURES

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 10:24 (1984),  1482–1486

  62. Magnonics: a new research area in spintronics and spin wave electronics

    UFN, 185:10 (2015),  1099–1128

© Steklov Math. Inst. of RAS, 2026