A. I. Ilyasov, A. V. Emelyanov, K. È. Nikiruy, A. A. Minnekhanov, E. V. Kukueva, I. A. Surazhevsky, A. V. Sitnikov, V. V. Ryl'kov, V. A. Demin, “Frequency-coded control of the conductance of memristors based on nanoscale layers of LiNbO$_3$ and (Co$_{40}$Fe$_{40}$B$_{20}$)$_{x}$(LiNbO$_{3}$)$_{100-x}$ composite in trained spiking neural networks”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 47:13 (2021), 3–7; Tech. Phys. Lett., 47:9 (2021), 656

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Pisma v Zhurnal Tekhnicheskoi Fiziki, 2021, Volume 47, Issue 13, Pages 3–7
DOI: https://doi.org/10.21883/PJTF.2021.13.51112.18750 (Mi pjtf4740)

This article is cited in 2 scientific papers (total in 2 papers)

Frequency-coded control of the conductance of memristors based on nanoscale layers of LiNbO$_3$ and (Co$_{40}$Fe$_{40}$B$_{20}$)$_{x}$(LiNbO$_{3}$)$_{100-x}$ composite in trained spiking neural networks

A. I. Ilyasov^ab, A. V. Emelyanov^a, K. È. Nikiruy^a, A. A. Minnekhanov^a, E. V. Kukueva^a, I. A. Surazhevsky^a, A. V. Sitnikov^a, V. V. Ryl'kov^ac, V. A. Demin^a

^a National Research Centre "Kurchatov Institute", Moscow
^b Lomonosov Moscow State University
^c Kotelnikov Institute of Radioengineering and Electronics, Fryazino Branch, Russian Academy of Sciences

Full-text PDF (942 kB) Citations (2)

DOI: https://doi.org/10.21883/PJTF.2021.13.51112.18750

Abstract: The memristive properties of Cu/nanocomposite/LiNbO$_3$/Cu capacitor structures based on a (Co$_{40}$Fe$_{40}$B$_{20}$)$_{x}$(LiNbO$_{3}$)$_{100-x}$ nanocomposite and an amorphous LiNbO$_3$ interlayer with thicknesses of about 40 and 20 nm, respectively, have been studied. It was found that these structures have relatively low resistive switching voltages ($\sim$2 V) and are capable of withstanding more than 10$^4$ cyclic switchings due to the formation of conducting channels in LiNbO$_3$ in fixed regions specified by the position of percolation chains of CoFe nanograins in the nanocomposite. It is shown that the conductance of Cu/nanocomposite/LiNbO$_3$/Cu memristors can vary according to local biosimilar rules. A simple neural network based on such memristors, trained by feeding a frequency-coded noise signal to its inputs, was implemented.

Keywords: memristor, nanocomposite, resistive switching, electronic memristive synapse, spiking neural network.

Funding agency	Grant number
Russian Science Foundation	20-79-10185
Ministry of Education and Science of the Russian Federation	МК-2203.2021.1.2
This work was supported in part by the Russian Science Foundation (grant no. 20-79-10185) in the study of the electrophysical and structural properties of memristive samples and by Russian Federation Presidential Grant MK-2203.2021.1.2 in the part of training a spiking neural network with noise signals.

Received: 02.03.2021
Revised: 02.03.2021
Accepted: 19.03.2021

English version:
Technical Physics Letters, 2021, Volume 47, Issue 9, Pages 656–660
DOI: https://doi.org/10.1134/S1063785021070075

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: A. I. Ilyasov, A. V. Emelyanov, K. È. Nikiruy, A. A. Minnekhanov, E. V. Kukueva, I. A. Surazhevsky, A. V. Sitnikov, V. V. Ryl'kov, V. A. Demin, “Frequency-coded control of the conductance of memristors based on nanoscale layers of LiNbO$_3$ and (Co$_{40}$Fe$_{40}$B$_{20}$)$_{x}$(LiNbO$_{3}$)$_{100-x}$ composite in trained spiking neural networks”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 47:13 (2021), 3–7; Tech. Phys. Lett., 47:9 (2021), 656–660

Citation in format AMSBIB

\Bibitem{IlyEmeNik21}

\by A.~I.~Ilyasov, A.~V.~Emelyanov, K.~\`E.~Nikiruy, A.~A.~Minnekhanov, E.~V.~Kukueva, I.~A.~Surazhevsky, A.~V.~Sitnikov, V.~V.~Ryl'kov, V.~A.~Demin

\paper Frequency-coded control of the conductance of memristors based on nanoscale layers of LiNbO$_3$ and (Co$_{40}$Fe$_{40}$B$_{20}$)$_{x}$(LiNbO$_{3}$)$_{100-x}$ composite in trained spiking neural networks

\jour Pisma v Zhurnal Tekhnicheskoi Fiziki

\yr 2021

\vol 47

\issue 13

\pages 3--7

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\crossref{https://doi.org/10.21883/PJTF.2021.13.51112.18750}

\elib{https://elibrary.ru/item.asp?id=46321841}

\transl

\jour Tech. Phys. Lett.

\yr 2021

\vol 47

\issue 9

\pages 656--660

\crossref{https://doi.org/10.1134/S1063785021070075}

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