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Bibliographic Details
Main Authors: Puppin, E., Zani, M., Pinotti, E.
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2202.03778
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author Puppin, E.
Zani, M.
Pinotti, E.
author_facet Puppin, E.
Zani, M.
Pinotti, E.
contents The propagation of the effects connected with the occurrence of magnetization reversals in an amorphous ribbon of Fe$_{63}$B$_{64}$Si$_{8}$Ni$_{15}$ has been investigated using a method based on two pickup coils separated by a distance variable between 2 an 40 mm. The ratio $R$ between the voltage signals induced in the coils contains information on the location where the magnetization reversal took place. This information can be extracted by knowing the function $V(x)$ which represents the attenuation of a signal generated by a reversal that took place at a distance x from the coil. A mathematical model for extracting this function starting from the histogram of the experimentally measured values of $R$ is presented. The attenuation function obtained in this way is relatively independent on the distance between the coils, and this is in strong support of the correctness of the model adopted.
format Preprint
id arxiv_https___arxiv_org_abs_2202_03778
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Correlation effects in Barkhausen noise and magnetic attenuation in soft ribbons
Puppin, E.
Zani, M.
Pinotti, E.
Statistical Mechanics
The propagation of the effects connected with the occurrence of magnetization reversals in an amorphous ribbon of Fe$_{63}$B$_{64}$Si$_{8}$Ni$_{15}$ has been investigated using a method based on two pickup coils separated by a distance variable between 2 an 40 mm. The ratio $R$ between the voltage signals induced in the coils contains information on the location where the magnetization reversal took place. This information can be extracted by knowing the function $V(x)$ which represents the attenuation of a signal generated by a reversal that took place at a distance x from the coil. A mathematical model for extracting this function starting from the histogram of the experimentally measured values of $R$ is presented. The attenuation function obtained in this way is relatively independent on the distance between the coils, and this is in strong support of the correctness of the model adopted.
title Correlation effects in Barkhausen noise and magnetic attenuation in soft ribbons
topic Statistical Mechanics
url https://arxiv.org/abs/2202.03778