TY - JOUR
T1 - Development of a metal oxide-based molecular-gap atomic switch for unconventional computing
AU - Araki, Masato
AU - Hasegawa, Tsuyoshi
N1 - Publisher Copyright:
© 2020 The Japan Society of Applied Physics.
PY - 2020/4/1
Y1 - 2020/4/1
N2 - Nonlinear response to input is a key characteristic in such areas as reservoir computing. The growth and shrinkage of an Ag filament in a molecular-gap atomic switch shows nonlinear responses to input signals. Therefore, networked molecular-gap atomic switches are expected to show dynamical change in response to various input patterns. In this study we demonstrate Ag filament growth/shrinkage in a 70 nm gap, which is much wider than that of conventional molecular-gap atomic switches, for use in switches in unconventional computing. The larger gap enables both a nonlinear response and the integration of the function in networks of atomic switch arrays.
AB - Nonlinear response to input is a key characteristic in such areas as reservoir computing. The growth and shrinkage of an Ag filament in a molecular-gap atomic switch shows nonlinear responses to input signals. Therefore, networked molecular-gap atomic switches are expected to show dynamical change in response to various input patterns. In this study we demonstrate Ag filament growth/shrinkage in a 70 nm gap, which is much wider than that of conventional molecular-gap atomic switches, for use in switches in unconventional computing. The larger gap enables both a nonlinear response and the integration of the function in networks of atomic switch arrays.
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U2 - 10.35848/1347-4065/ab8026
DO - 10.35848/1347-4065/ab8026
M3 - Article
AN - SCOPUS:85083315766
SN - 0021-4922
VL - 59
JO - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
JF - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
IS - 4
M1 - 040605
ER -