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Auteurs principaux: Shawon, A K M Ashiquzzaman, Downey, Eoghan, Smolenski, Shane, Hicken, Thomas J., Henderson, Amir, Xu, Mingyu, Musall, Trisha, Sabainsk, Rafael Lopes, Zhu, Yuan, Xie, Weiwei, Gati, Elena, Li, Lu, Guguchia, Zurab, Jo, Na Hyun
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2605.01088
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author Shawon, A K M Ashiquzzaman
Downey, Eoghan
Smolenski, Shane
Hicken, Thomas J.
Henderson, Amir
Xu, Mingyu
Musall, Trisha
Sabainsk, Rafael Lopes
Zhu, Yuan
Xie, Weiwei
Gati, Elena
Li, Lu
Guguchia, Zurab
Jo, Na Hyun
author_facet Shawon, A K M Ashiquzzaman
Downey, Eoghan
Smolenski, Shane
Hicken, Thomas J.
Henderson, Amir
Xu, Mingyu
Musall, Trisha
Sabainsk, Rafael Lopes
Zhu, Yuan
Xie, Weiwei
Gati, Elena
Li, Lu
Guguchia, Zurab
Jo, Na Hyun
contents Altermagnets are a class of materials with compensated magnetic moments, in which spin sublattices are related by specific symmetries other than inversion or translation. This allows time-reversal symmetry to be broken without a net magnetization. Here, we synthesize single crystals of Fe1-xCrxSb2 and investigate their electrical transport and magnetic properties, with a focus on Fe0.85Cr0.15Sb2. Magnetization measurements suggest spin-compensated ordering below ~ 3.5 K, where magnetic moments align along the crystallographic b-direction. Transport measurements reveal a crossover from large positive to negative magnetoresistance, while an anomalous Hall response emerges below 3.5 K, indicating time-reversal symmetry breaking below TN. Muon spin relaxation measurements demonstrate bulk magnetic order below 3.5 K, confirming that the low temperature ordering is intrinsic rather than due to an impurity phase. These results support a potential altermagnetic ground state in Cr-doped FeSb2 with time-reversal symmetry breaking without net magnetization.
format Preprint
id arxiv_https___arxiv_org_abs_2605_01088
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Evidence for altermagnetic order in Cr-doped FeSb2
Shawon, A K M Ashiquzzaman
Downey, Eoghan
Smolenski, Shane
Hicken, Thomas J.
Henderson, Amir
Xu, Mingyu
Musall, Trisha
Sabainsk, Rafael Lopes
Zhu, Yuan
Xie, Weiwei
Gati, Elena
Li, Lu
Guguchia, Zurab
Jo, Na Hyun
Materials Science
Altermagnets are a class of materials with compensated magnetic moments, in which spin sublattices are related by specific symmetries other than inversion or translation. This allows time-reversal symmetry to be broken without a net magnetization. Here, we synthesize single crystals of Fe1-xCrxSb2 and investigate their electrical transport and magnetic properties, with a focus on Fe0.85Cr0.15Sb2. Magnetization measurements suggest spin-compensated ordering below ~ 3.5 K, where magnetic moments align along the crystallographic b-direction. Transport measurements reveal a crossover from large positive to negative magnetoresistance, while an anomalous Hall response emerges below 3.5 K, indicating time-reversal symmetry breaking below TN. Muon spin relaxation measurements demonstrate bulk magnetic order below 3.5 K, confirming that the low temperature ordering is intrinsic rather than due to an impurity phase. These results support a potential altermagnetic ground state in Cr-doped FeSb2 with time-reversal symmetry breaking without net magnetization.
title Evidence for altermagnetic order in Cr-doped FeSb2
topic Materials Science
url https://arxiv.org/abs/2605.01088