TY - GEN
T1 - The Vibration of FINEMET Microribbon in Magnetic Field at Low Sound Frequency
AU - Sizhuk, Andrii
AU - Zhao, Zhenjie
AU - Chen, Xiaohong
AU - Sun, Zhuo
AU - Dong, Guangjiong
AU - Prokopenko, Oleksandr
AU - Tretyak, Alina
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - The induced by the changing magnetic field bending vibration of the microribbon Fe73.5Cu1Nb3Si13.5B9 with the fixed one end at the range of low sound frequencies is experimentally observed. The as-cast and annealed samples are tested for low-frequency resonant vibrations. In the given region of frequencies for an inducing magnetic field, the resonant frequencies of the induced mechanical vibrations are found. The decay coefficient, measured for the mechanical self-vibration of the annealed sample, is derived. When a relatively weak permanent magnet approaches the microribbons in the direction, perpendicular to the bending vibration, the cessation of the mechanical vibration in the direction is sighted for both, as-cast and annealed samples. The spin nature and the corresponding contribution of the Einstein-de Haas effect are discussed to explain the observed.
AB - The induced by the changing magnetic field bending vibration of the microribbon Fe73.5Cu1Nb3Si13.5B9 with the fixed one end at the range of low sound frequencies is experimentally observed. The as-cast and annealed samples are tested for low-frequency resonant vibrations. In the given region of frequencies for an inducing magnetic field, the resonant frequencies of the induced mechanical vibrations are found. The decay coefficient, measured for the mechanical self-vibration of the annealed sample, is derived. When a relatively weak permanent magnet approaches the microribbons in the direction, perpendicular to the bending vibration, the cessation of the mechanical vibration in the direction is sighted for both, as-cast and annealed samples. The spin nature and the corresponding contribution of the Einstein-de Haas effect are discussed to explain the observed.
KW - FINEMETAL
KW - magnetic susceptibility
KW - mechanical vibration
KW - microstrip
KW - nanomaterials
UR - https://www.scopus.com/pages/publications/85149184792
U2 - 10.1109/UkrMW58013.2022.10037134
DO - 10.1109/UkrMW58013.2022.10037134
M3 - 会议稿件
AN - SCOPUS:85149184792
T3 - 2022 IEEE 2nd Ukrainian Microwave Week, UkrMW 2022 - Proceedings
SP - 410
EP - 414
BT - 2022 IEEE 2nd Ukrainian Microwave Week, UkrMW 2022 - Proceedings
A2 - Andriychuk, Mykhaylo
A2 - Antyufeyeva, Mariya
A2 - Bagatska, Olga
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2nd IEEE Ukrainian Microwave Week, UkrMW 2022
Y2 - 14 November 2022 through 18 November 2022
ER -