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Bibliographic Details
Main Authors: Jamer, Michelle E., Stephen, Gregory M., Wilfong, Brandon, Barua, Radhika, Abel, Frank M., Bennett, Steven P., Prestigiacomo, Joseph C., Heiman, Don, Graf, Dave
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.00408
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author Jamer, Michelle E.
Stephen, Gregory M.
Wilfong, Brandon
Barua, Radhika
Abel, Frank M.
Bennett, Steven P.
Prestigiacomo, Joseph C.
Heiman, Don
Graf, Dave
author_facet Jamer, Michelle E.
Stephen, Gregory M.
Wilfong, Brandon
Barua, Radhika
Abel, Frank M.
Bennett, Steven P.
Prestigiacomo, Joseph C.
Heiman, Don
Graf, Dave
contents Fe$_3$Ga$_4$ possesses a helical spin spiral with a complex competition between ferromagnetic and antiferromagnetic ground states. This competition generates multiple metamagnetic transitions that are governed by both applied magnetic field and temperature. At intermediate temperatures between T$_1$ (68 K) and T$_2$ (360 K), the ferromagnetically aligned spins transition to an antiferromagnetic spin spiral. In this study, magnetoresistance (MR) measurements are performed on an aligned single crystal and compared to magnetization properties in order to gain insight on the unique alignment of the spins. The high-field MR is positive at low temperatures indicating cyclotronic behavior and negative at high temperature from electron-magnon scattering. Of particular significance is a large anomalous positive MR at low fields, possibly due to emergent spin fluctuations thus prompting further exploration of this multifaceted material.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00408
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Anomalous low-field magnetoresistance in Fe$_3$Ga$_4$ single crystals
Jamer, Michelle E.
Stephen, Gregory M.
Wilfong, Brandon
Barua, Radhika
Abel, Frank M.
Bennett, Steven P.
Prestigiacomo, Joseph C.
Heiman, Don
Graf, Dave
Materials Science
Fe$_3$Ga$_4$ possesses a helical spin spiral with a complex competition between ferromagnetic and antiferromagnetic ground states. This competition generates multiple metamagnetic transitions that are governed by both applied magnetic field and temperature. At intermediate temperatures between T$_1$ (68 K) and T$_2$ (360 K), the ferromagnetically aligned spins transition to an antiferromagnetic spin spiral. In this study, magnetoresistance (MR) measurements are performed on an aligned single crystal and compared to magnetization properties in order to gain insight on the unique alignment of the spins. The high-field MR is positive at low temperatures indicating cyclotronic behavior and negative at high temperature from electron-magnon scattering. Of particular significance is a large anomalous positive MR at low fields, possibly due to emergent spin fluctuations thus prompting further exploration of this multifaceted material.
title Anomalous low-field magnetoresistance in Fe$_3$Ga$_4$ single crystals
topic Materials Science
url https://arxiv.org/abs/2510.00408