Matteucci effect in glass coated microwires

Author

Cobero, A.F. ; Blanco, J.M. ; Zhukov, A. ; Dominguez, L. ; Gonzalez, J. ; Torcunov, A. ; Aragoneses, P.

Author_Institution

Dpto. Fisica Aplicada I & Dpto. Electron. y Telecommun., Pais Vasco Univ., San Sebastian, Spain

Volume

35

Issue

5

fYear

1999

fDate

9/1/1999 12:00:00 AM

Firstpage

3382

Lastpage

3384

Abstract

Particular aspects concerning Matteucci effect of four amorphous microwires (Fe_58.9Co_14.7Si_16.2B_10.2, Fe _71.8B_9.1Si₁₄Cu₁Nb_3.1, Co₆₉Mn₇Si₁₀B₁₅ and Co₆₉Mn₆Si₁₀B₁₅) with different values and sign of the saturation magnetostriction are reported. The effect of applied torque on the voltage of the Matteucci effect and the coercive field corresponding to the circular magnetization and axial magnetic field has been also measured and analysed considering the magnetoelastic helical anisotropy introduced by the torsion

Keywords

Matteucci effect; boron alloys; cobalt alloys; coercive force; copper alloys; ferromagnetic materials; iron alloys; magnetic anisotropy; magnetostriction; manganese alloys; niobium alloys; silicon alloys; Co₆₉Mn₆Si₁₀B₁₅; Co₆₉Mn₇Si₁₀B₁₅; Fe_58.9Co_14.7Si_16.2B_10.2; Fe_71.8B_9.1Si₁₄Cu₁Nb _3.1; Matteucci effect; amorphous microwires; axial magnetic field; circular magnetization; glass coated microwires; magnetoelastic helical anisotropy; saturation magnetostriction; Amorphous materials; Glass; Iron; Magnetic analysis; Magnetic field measurement; Magnetization; Magnetostriction; Niobium; Torque measurement; Voltage;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.800531

Filename

800531