化学取代受挫反铁磁体CsCrF4的磁序

arXiv: Strongly Correlated Electrons Pub Date : 2020-11-12 DOI:10.1103/PhysRevB.102.174440

S. Hayashida, M. Hagihala, M. Avdeev, Y. Miura, H. Manaka, T. Masuda

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引用次数: 0

摘要

通过中子粉末衍射实验，研究了化学取代对几何受挫反铁磁体CsCrF$_4$基态的影响。测量了磁性Fe-取代CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$和非磁性Al-取代CsCr$_{0.98}$Al$_{0.02}$F$_{4}$样品，在两个样品中都清晰地观察到磁性布拉格峰。磁结构分析表明，在CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$中，120$ $^{\circ}$结构具有磁传播向量$\mathbf{k}_{\rm mag}=(0,0,1/2)$。为CsCr Al美元$ _ {0.98}_ {0.02}$ F $ _{4} $,准- 120 $ ^{\保监会}结构拥有美元\ mathbf {k} _ {\ rm杂志}=(1/2,0,1/2)形成美元。值得注意的是，CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$的磁性结构与CsCr$_{0.98}$Al$_{0.02}$F$_{4}$和母体CsCrF$_{4}$的磁性结构属于不同的基态相。这些结果表明，fe取代对CsCrF$_{4}$的基态影响很大。

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Magnetic order in the chemically substituted frustrated antiferromagnet CsCrF4

The effect of chemical substitution on the ground state of the geometrically frustrated antiferromagnet CsCrF$_4$ has been investigated through a neutron powder diffraction experiment. Magnetic Fe-substituted CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$ and nonmagnetic Al-substituted CsCr$_{0.98}$Al$_{0.02}$F$_{4}$ samples are measured, and magnetic Bragg peaks are clearly observed in both samples. Magnetic structure analysis revealed a 120$^{\circ}$ structure having a magnetic propagation vector $\mathbf{k}_{\rm mag}=(0,0,1/2)$ in CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$. For CsCr$_{0.98}$Al$_{0.02}$F$_{4}$, a quasi-120$^{\circ}$ structure having $\mathbf{k}_{\rm mag}=(1/2,0,1/2)$ is formed. It is notable that the identified magnetic structure in CsCr$_{0.94}$Fe$_{0.06}$F$_{4}$ belongs to a different phase of ground states from those in CsCr$_{0.98}$Al$_{0.02}$F$_{4}$ and the parent CsCrF$_{4}$. These results suggest that the Fe-substitution strongly influences the ground state of CsCrF$_{4}$.

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arXiv: Strongly Correlated Electrons

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