TY - JOUR
T1 - Structure and Tunneling Magnetodielectric Effects of Cobalt–(Barium Fluoride) Lateral Nanogranular Films
AU - Kijima-Aoki, Hanae
AU - Uchikoshi, Katsuhiro
AU - Miyazaki, Takamichi
AU - Ohnuma, Masato
AU - Honda, Yoshiki
AU - Kobayashi, Nobukiyo
AU - Ohnuma, Shigehiro
AU - Masumoto, Hiroshi
N1 - Publisher Copyright:
©2024 The Japan Institute of Metals and Materials.
PY - 2024
Y1 - 2024
N2 - Controlling the conductance of miniaturized electrical components via spin-dependent tunneling is a challenging step for nano-scale implementation. In this study, we demonstrate the fabrication of lateral nanogranular films with oblate magnetic metal nanoparticles and achieve variable out-of-plane intergranular gap. Changes in insulating layer thickness from 0.4 to 2.1 nm resulted in a marked increase of 10,000-fold for both in-plane and out-of-plane electrical resistivities. A 4% enhancement in permittivity, namely the magnetodielectric effect, was obtained under an in-plane magnetic field of 10 kOe. The frequency at which the maximum magnetodielectric effect is found shifts from 15 kHz to 880 kHz depending on the out-of-plane resistivity. We demonstrated frequency control of the magnetodielectric effect via electrical resistivity by structural modulation of the lateral nanogranular system.
AB - Controlling the conductance of miniaturized electrical components via spin-dependent tunneling is a challenging step for nano-scale implementation. In this study, we demonstrate the fabrication of lateral nanogranular films with oblate magnetic metal nanoparticles and achieve variable out-of-plane intergranular gap. Changes in insulating layer thickness from 0.4 to 2.1 nm resulted in a marked increase of 10,000-fold for both in-plane and out-of-plane electrical resistivities. A 4% enhancement in permittivity, namely the magnetodielectric effect, was obtained under an in-plane magnetic field of 10 kOe. The frequency at which the maximum magnetodielectric effect is found shifts from 15 kHz to 880 kHz depending on the out-of-plane resistivity. We demonstrated frequency control of the magnetodielectric effect via electrical resistivity by structural modulation of the lateral nanogranular system.
KW - magnetodielectric effect
KW - nanogranular film
KW - tandem sputtering
KW - tunneling effect
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U2 - 10.2320/matertrans.MT-M2023176
DO - 10.2320/matertrans.MT-M2023176
M3 - Article
AN - SCOPUS:85192676209
SN - 1345-9678
VL - 65
SP - 576
EP - 582
JO - Materials Transactions
JF - Materials Transactions
IS - 5
ER -