Field-induced vortex-like textures as a probe of the critical line in reentrant spin glasses

N. Martin; L. J. Bannenberg; M. Deutsch; C. Pappas; G. Chaboussant; R. Cubitt; I. Mirebeau

doi:10.1038/s41598-021-99860-2

Field-induced vortex-like textures as a probe of the critical line in reentrant spin glasses

N. Martin^*, L. J. Bannenberg, M. Deutsch, C. Pappas, G. Chaboussant, R. Cubitt, I. Mirebeau

^*Corresponding author for this work

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Abstract

We study the evolution of the low-temperature field-induced magnetic defects observed under an applied magnetic field in a series of frustrated amorphous ferromagnets (Fe₁_-_xMn_x)₇₅P₁₆B₃Al₃ (“a-Fe₁_-_xMn_x”). Combining small-angle neutron scattering and Monte Carlo simulations, we show that the morphology of these defects resemble that of quasi-bidimensional spin vortices. They are observed in the so-called “reentrant” spin-glass (RSG) phase, up to the critical concentration x_C≈ 0.36 which separates the RSG and “true” spin glass (SG) within the low temperature part of the magnetic phase diagram of a-Fe_1−xMn_x. These textures systematically decrease in size with increasing magnetic field or decreasing the average exchange interaction, and they finally disappear in the SG sample (x= 0.41), being replaced by field-induced correlations over finite length scales. We argue that the study of these nanoscopic defects could be used to probe the critical line between the RSG and SG phases.

Original language	English
Article number	20753
Number of pages	9
Journal	Scientific Reports
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41598-021-99860-2
Publication status	Published - 2021

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s41598-021-99860-2Final published version, 2.8 MBLicence: CC BY

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title = "Field-induced vortex-like textures as a probe of the critical line in reentrant spin glasses",

abstract = "We study the evolution of the low-temperature field-induced magnetic defects observed under an applied magnetic field in a series of frustrated amorphous ferromagnets (Fe1-xMnx)75P16B3Al3 (“a-Fe1-xMnx”). Combining small-angle neutron scattering and Monte Carlo simulations, we show that the morphology of these defects resemble that of quasi-bidimensional spin vortices. They are observed in the so-called “reentrant” spin-glass (RSG) phase, up to the critical concentration xC≈ 0.36 which separates the RSG and “true” spin glass (SG) within the low temperature part of the magnetic phase diagram of a-Fe1−xMnx. These textures systematically decrease in size with increasing magnetic field or decreasing the average exchange interaction, and they finally disappear in the SG sample (x= 0.41), being replaced by field-induced correlations over finite length scales. We argue that the study of these nanoscopic defects could be used to probe the critical line between the RSG and SG phases.",

author = "N. Martin and Bannenberg, {L. J.} and M. Deutsch and C. Pappas and G. Chaboussant and R. Cubitt and I. Mirebeau",

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AU - Martin, N.

AU - Bannenberg, L. J.

AU - Deutsch, M.

AU - Pappas, C.

AU - Chaboussant, G.

AU - Cubitt, R.

AU - Mirebeau, I.

PY - 2021

Y1 - 2021

N2 - We study the evolution of the low-temperature field-induced magnetic defects observed under an applied magnetic field in a series of frustrated amorphous ferromagnets (Fe1-xMnx)75P16B3Al3 (“a-Fe1-xMnx”). Combining small-angle neutron scattering and Monte Carlo simulations, we show that the morphology of these defects resemble that of quasi-bidimensional spin vortices. They are observed in the so-called “reentrant” spin-glass (RSG) phase, up to the critical concentration xC≈ 0.36 which separates the RSG and “true” spin glass (SG) within the low temperature part of the magnetic phase diagram of a-Fe1−xMnx. These textures systematically decrease in size with increasing magnetic field or decreasing the average exchange interaction, and they finally disappear in the SG sample (x= 0.41), being replaced by field-induced correlations over finite length scales. We argue that the study of these nanoscopic defects could be used to probe the critical line between the RSG and SG phases.

AB - We study the evolution of the low-temperature field-induced magnetic defects observed under an applied magnetic field in a series of frustrated amorphous ferromagnets (Fe1-xMnx)75P16B3Al3 (“a-Fe1-xMnx”). Combining small-angle neutron scattering and Monte Carlo simulations, we show that the morphology of these defects resemble that of quasi-bidimensional spin vortices. They are observed in the so-called “reentrant” spin-glass (RSG) phase, up to the critical concentration xC≈ 0.36 which separates the RSG and “true” spin glass (SG) within the low temperature part of the magnetic phase diagram of a-Fe1−xMnx. These textures systematically decrease in size with increasing magnetic field or decreasing the average exchange interaction, and they finally disappear in the SG sample (x= 0.41), being replaced by field-induced correlations over finite length scales. We argue that the study of these nanoscopic defects could be used to probe the critical line between the RSG and SG phases.

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Field-induced vortex-like textures as a probe of the critical line in reentrant spin glasses

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