Remanent magnetization of a simple ferromagnet

Ralph Chamberlin; F. Holtzberg

doi:10.1103/PhysRevLett.67.1606

Remanent magnetization of a simple ferromagnet

Ralph Chamberlin
, F. Holtzberg

Physics

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

We have measured the remanent magnetization of single-crystal EuS from 10-4 to 104 sec after removing an applied field. Using a recent model for magnon relaxation on finite domains, the data yield size-scaling exponents of =-0.100.02 and =0.6690.004, in excellent agreement with exact theoretical predictions. As a function of temperature, the remanent magnetization is a maximum above the Curie transition, and for some thermal histories, becomes negative in the ferromagnetic regime. The behavior is consistent with a percolation backbone that is negatively coupled to the finite domains.

Original language	English (US)
Pages (from-to)	1606-1609
Number of pages	4
Journal	Physical Review Letters
Volume	67
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.67.1606
State	Published - 1991

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.67.1606

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abstract = "We have measured the remanent magnetization of single-crystal EuS from 10-4 to 104 sec after removing an applied field. Using a recent model for magnon relaxation on finite domains, the data yield size-scaling exponents of =-0.100.02 and =0.6690.004, in excellent agreement with exact theoretical predictions. As a function of temperature, the remanent magnetization is a maximum above the Curie transition, and for some thermal histories, becomes negative in the ferromagnetic regime. The behavior is consistent with a percolation backbone that is negatively coupled to the finite domains.",

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AU - Holtzberg, F.

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AB - We have measured the remanent magnetization of single-crystal EuS from 10-4 to 104 sec after removing an applied field. Using a recent model for magnon relaxation on finite domains, the data yield size-scaling exponents of =-0.100.02 and =0.6690.004, in excellent agreement with exact theoretical predictions. As a function of temperature, the remanent magnetization is a maximum above the Curie transition, and for some thermal histories, becomes negative in the ferromagnetic regime. The behavior is consistent with a percolation backbone that is negatively coupled to the finite domains.

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Remanent magnetization of a simple ferromagnet

Abstract

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