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Auteurs principaux: Dong, Jinou, Zhao, Xueqin, Xie, Lingfeng, Pan, Xun, Tang, Haoyuan, Xu, Zhicheng, Zhi, Guoxiang, Cao, Chao, Wang, Xiaoqun, Ning, Fanlong
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2503.17948
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author Dong, Jinou
Zhao, Xueqin
Xie, Lingfeng
Pan, Xun
Tang, Haoyuan
Xu, Zhicheng
Zhi, Guoxiang
Cao, Chao
Wang, Xiaoqun
Ning, Fanlong
author_facet Dong, Jinou
Zhao, Xueqin
Xie, Lingfeng
Pan, Xun
Tang, Haoyuan
Xu, Zhicheng
Zhi, Guoxiang
Cao, Chao
Wang, Xiaoqun
Ning, Fanlong
contents Due to the dominant Kitaev exchange interactions, the cobaltate, Na$_{3}$Co$_{2}$SbO$_{6}$, has been considered to be approximate to the Kitaev quantum spin liquid (QSL). Here, we investigate both magnetic dilution and chemical pressure effects of Na$_{3}$Co$_{2}$SbO$_{6}$ by the substitutions of Mg$^{2+}$ for Co$^{2+}$ through the structural, optical, magnetic and thermodynamic measurements. No structural transition has been observed, and the bandgaps remain constant in all doping levels. Combining with the magnetic and thermodynamic measurements, we find that the antiferromagnetic transition temperature is continuously suppressed with increasing Mg doping levels and completely disappears at $x=0.2$. Interestingly, when the doping level $x$ is larger than 0.2, neither long-range magnetic order nor spin glass state has been detected, and the specific heat has a residual linear term at zero field. All features indicate that Na$_{3}$(Co$_{2-x}$Mg$_{x}$)SbO$_{6}$ system enters into a novel spin disorder (NSD) state.
format Preprint
id arxiv_https___arxiv_org_abs_2503_17948
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spin disorder state induced by Mg$^{2+}$ doping in a Kitaev material Na$_{3}$Co$_{2}$SbO$_{6}$
Dong, Jinou
Zhao, Xueqin
Xie, Lingfeng
Pan, Xun
Tang, Haoyuan
Xu, Zhicheng
Zhi, Guoxiang
Cao, Chao
Wang, Xiaoqun
Ning, Fanlong
Strongly Correlated Electrons
Due to the dominant Kitaev exchange interactions, the cobaltate, Na$_{3}$Co$_{2}$SbO$_{6}$, has been considered to be approximate to the Kitaev quantum spin liquid (QSL). Here, we investigate both magnetic dilution and chemical pressure effects of Na$_{3}$Co$_{2}$SbO$_{6}$ by the substitutions of Mg$^{2+}$ for Co$^{2+}$ through the structural, optical, magnetic and thermodynamic measurements. No structural transition has been observed, and the bandgaps remain constant in all doping levels. Combining with the magnetic and thermodynamic measurements, we find that the antiferromagnetic transition temperature is continuously suppressed with increasing Mg doping levels and completely disappears at $x=0.2$. Interestingly, when the doping level $x$ is larger than 0.2, neither long-range magnetic order nor spin glass state has been detected, and the specific heat has a residual linear term at zero field. All features indicate that Na$_{3}$(Co$_{2-x}$Mg$_{x}$)SbO$_{6}$ system enters into a novel spin disorder (NSD) state.
title Spin disorder state induced by Mg$^{2+}$ doping in a Kitaev material Na$_{3}$Co$_{2}$SbO$_{6}$
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2503.17948