Search Results - "Rylkov, V.V"

Necessary conditions for STDP-based pattern recognition learning in a memristive spiking neural network by Demin, V.A., Nekhaev, D.V., Surazhevsky, I.A., Nikiruy, K.E., Emelyanov, A.V., Nikolaev, S.N., Rylkov, V.V., Kovalchuk, M.V.

“…This work is aimed to study experimental and theoretical approaches for searching effective local training rules for unsupervised pattern recognition by…”
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Noise-assisted persistence and recovery of memory state in a memristive spiking neuromorphic network by Surazhevsky, I.A., Demin, V.A., Ilyasov, A.I., Emelyanov, A.V., Nikiruy, K.E., Rylkov, V.V., Shchanikov, S.A., Bordanov, I.A., Gerasimova, S.A., Guseinov, D.V., Malekhonova, N.V., Pavlov, D.A., Belov, A.I., Mikhaylov, A.N., Kazantsev, V.B., Valenti, D., Spagnolo, B., Kovalchuk, M.V.

“…We investigate the constructive role of an external noise signal, in the form of a low-rate Poisson sequence of pulses supplied to all inputs of a spiking…”
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Magnetic properties and magnetoresistance of hybrid multilayer nanostructures {[(Co40Fe40B20)34(SiO2)66]/[ZnO]}n by Kalinin, Y.E., Sitnikov, A.V., Makagonov, V.A., Foshin, V.A., Volochaev, M.N., Pripechenkov, I.M., Perova, N.N., Ganshina, E.A., Rylkov, V.V., Granovsky, A.B.

“…•Hybrid multilayer nanostructures were obtained by ion-beam sputtering method.•Multilayer nanostructures are formed from layers of superparamagnetic…”
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Yttria-stabilized zirconia cross-point memristive devices for neuromorphic applications by Emelyanov, A.V., Nikiruy, K.E., Demin, V.A., Rylkov, V.V., Belov, A.I., Korolev, D.S., Gryaznov, E.G., Pavlov, D.A., Gorshkov, O.N., Mikhaylov, A.N., Dimitrakis, P.

“…An array of cross-point memristive devices has been implemented on the basis of yttria-stabilized zirconia thin film for applications in prototypes of spiking…”
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Mechanisms of FMR line broadening in CoFeB-LiNbO3 granular films in the vicinity of metal-insulator transition by Drovosekov, A.B., Kreines, N.M., Barkalova, A.S., Nikolaev, S.N., Rylkov, V.V., Sitnikov, A.V.

“…•Granular films CoFeB-LiNbO3 are studied near metal-insulator transition (MIT).•Inhomogeneity and two-magnon mechanisms of FMR line broadening are…”
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Transport, Magnetic, and Memristive Properties of a Nanogranular [.sub.100 - x] Composite Material by Rylkov, V.V, Nikolaev, S.N, Demin, V.A, Emelyanov, A.V, Sitnikov, A.V, Nikiruy, K.E, Levanov, V.A, Presnyakov, M.Yu, Taldenko, A.N, Vasiliev, A.L, Chernoglazov, K.Yu, Vedeneev, A.S, Kalinin, Yu.E, Granovsky, A.B, Tugushev, V.V, Bugaev, A.S

“…The properties of [(CoFeB).sub.x][(LiNb[O.sub.y]).sub.100 - x] nanocomposite films with a ferromagnetic alloy content x = 6-48 at % are comprehensively…”
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Properties of granular (CoFeB) (Al2O3)100-x and (CoFeB) (LiNbO3)100-x nanocomposites: Manifestation of superferromagnetic ordering effects by Rylkov, V.V., Sitnikov, A.V., Nikolaev, S.N., Demin, V.A., Taldenkov, A.N., Presnyakov, M.Yu, Emelyanov, A.V., Vasiliev, A.L., Kalinin, Yu.E., Bugaev, A.S., Tugushev, V.V., Granovsky, A.B.

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Magnetoresistance of (Co40Fe40B20)x(SiO2)100−x and (Co84Nb14Ta2)x(Al2O3)100−x nanocomposites below the percolation threshold in pulsed magnetic fields by Blinov, M.I., Shakhov, M.A., Rylkov, V.V., Lähderanta, E., Prudnikov, V.N., Nikolaev, S.N., Sitnikov, A.V., Granovsky, A.B.

“…•Positive magnetoresistance is observed in CoFeB, CoNbTa nanocomposites in high field.•Positive magnetoresistance is 0.003–0.009% T−1 and persists up to room…”
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Properties of granular (CoFeB)x(Al2O3)100-x and (CoFeB)x(LiNbO3)100-x nanocomposites: Manifestation of superferromagnetic ordering effects by Rylkov, V.V., Sitnikov, A.V., Nikolaev, S.N., Demin, V.A., Taldenkov, A.N., Presnyakov, M.Yu, Emelyanov, A.V., Vasiliev, A.L., Kalinin, Yu.E., Bugaev, A.S., Tugushev, V.V., Granovsky, A.B.

“…We present a comparative study of (CoFeB)x(Al2O3)100-x and (CoFeB)x(LiNbO3)100-x film nanocomposites (NCs) with various structure deposited onto a…”
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Engineering of high-temperature ferromagnetic Si1–Mn (x ≈ 0.5) alloyed films by pulsed laser deposition: Effect of laser fluence by Pandey, Parul, Drovosekov, A.B., Wang, M., Xu, C., Nikolaev, S.N., Chernoglazov, K.Yu, Savitsky, A.O., Kreines, N.M., Maslakov, K.I., Cherebilo, E.A., Mikhalevsky, V.A., Novodvorskii, O.A., Tugushev, V.V., Rylkov, V.V., Helm, M., Zhou, S.

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Magnetic anisotropy of polycrystalline high-temperature ferromagnetic Mn x Si 1-x ( x ≈ 0.5 ) alloy films by Drovosekov, A.B., Kreines, N.M., Savitsky, A.O., Kapelnitsky, S.V., Rylkov, V.V., Tugushev, V.V., Prutskov, G.V., Novodvorskii, O.A., Shorokhova, A.V., Wang, Y., Zhou, S.

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Engineering of high-temperature ferromagnetic Si1–xMnx (x ≈ 0.5) alloyed films by pulsed laser deposition: Effect of laser fluence by Pandey, Parul, Drovosekov, A.B., Wang, M., Xu, C., Nikolaev, S.N., Chernoglazov, K.Yu, Savitsky, A.O., Kreines, N.M., Maslakov, K.I., Cherebilo, E.A., Mikhalevsky, V.A., Novodvorskii, O.A., Tugushev, V.V., Rylkov, V.V., Helm, M., Zhou, S.

“…Thin films of Si1−xMnx were deposited on Al2O3 substrate using pulsed laser deposition(PLD)technique employing time-of-flight separation of the ejected…”
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Dynamic Magnetic Permeability of the Heterogeneous Nanosystems Based on by Granovskii, A.B, Kalinin, Yu.E, Kashirin, M.A, Kolmakov, D.V, Rylkov, V.V, Sitnikov, A.V, Vyzulin, S.A, Ganshina, E.A, Taldenkov, A.N

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Magnetic anisotropy of polycrystalline high-temperature ferromagnetic MnxSi1-x (x≈0.5) alloy films by Drovosekov, A.B., Kreines, N.M., Savitsky, A.O., Kapelnitsky, S.V., Rylkov, V.V., Tugushev, V.V., Prutskov, G.V., Novodvorskii, O.A., Shorokhova, A.V., Wang, Y., Zhou, S.

“…A set of thin film MnxSi1-x alloy samples with different manganese concentration x≈0.44−0.63 grown by the pulsed laser deposition (PLD) method onto the Al2O3…”
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Magnetotransport properties of nonstoichiometric Si-Mn alloys with an excess of manganese relative to silicides and MnSi by Nikolaev, S.N, Chernogolazov, K.Yu, Shorokhova, A.V, Parshina, L.S, Levanov, V.A, Maslakov, K.I, Novodvorskii, O.A, Rylkov, V.V

“…Comparative examination of magnetotransport properties of nonstoichiometric [Si.sub.1-x][Mn.sub.x] alloys with roughly the same ([delta]x/x [approximately…”
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High-temperature ferromagnetism of Si 1−x Mn x ( x ≈0.52−0.55) alloys by Rylkov, V.V., Bugaev, A.S., Novodvorskii, O.A., Tugushev, V.V., Kulatov, E.T., Zenkevich, A.V., Semisalova, A.S., Nikolaev, S.N., Vedeneev, A.S., Shorokhova, A.V., Aver′yanov, D.V., Chernoglazov, K.Yu, Gan′shina, E.A., Granovsky, A.B., Wang, Y., Panchenko, V.Ya, Zhou, S.

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Transport, Magnetic, and Memristive Properties of a Nanogranular by Rylkov, V.V, Nikolaev, S.N, Demin, V.A, Emelyanov, A.V, Sitnikov, A.V, Nikiruy, K.E, Levanov, V.A, Presnyakov, M.Yu, Taldenko, A.N, Vasiliev, A.L, Chernoglazov, K.Yu, Vedeneev, A.S, Kalinin, Yu.E, Granovsky, A.B, Tugushev, V.V, Bugaev, A.S

“…The properties of [(CoFeB).sub.x][(LiNb[O.sub.y]).sub.100 - x] nanocomposite films with a ferromagnetic alloy content x = 6-48 at % are comprehensively…”
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Dynamic Magnetic Permeability of the Heterogeneous Nanosystems Based on [.sub.100-x] Composites by Granovskii, A.B, Kalinin, Yu.E, Kashirin, M.A, Kolmakov, D.V, Rylkov, V.V, Sitnikov, A.V, Vyzulin, S.A, Ganshina, E.A, Taldenkov, A.N

“…Thin films of [([Co.sub.41][Fe.sub.39][B.sub.20]).sub.x][(Si[O.sub.2]).sub.100-x] nanocomposites and hybrid nanocomposite-semiconductor…”
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High-temperature ferromagnetism of Si1−xMnx (x≈0.52−0.55) alloys by Rylkov, V.V., Bugaev, A.S., Novodvorskii, O.A., Tugushev, V.V., Kulatov, E.T., Zenkevich, A.V., Semisalova, A.S., Nikolaev, S.N., Vedeneev, A.S., Shorokhova, A.V., Aver′yanov, D.V., Chernoglazov, K.Yu, Gan′shina, E.A., Granovsky, A.B., Wang, Y., Panchenko, V.Ya, Zhou, S.

“…The paper reports on the comprehensive study of properties of nonstoichiometric Si1−xMnx alloys slightly enriched in Mn (x≈0.51–0.55) as compared to the…”
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Anomalous Hall effect in polycrystalline Mnx Si1_x (x = 0:5) films with the self-organized distribution of crystallites over their shapes and sizes by Chernoglazov, K. Yu, Nikolaev, S. N., Rylkov, V.V., Semisalova, A. S., Zenkevich, A. V., Tugushev, V.V., Vasil'Ev, A. L, Chesnokov, Yu. . M., Pashaev, E. M., Matveev, Yu. A, Granovskii, A. B., Novodvorskii, O. A, Vedeneev, A. S., Bugaev, A. S., Drachenko, Oleksiy, Zhou, S.

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