Topological Hall effect and magnetic states in the Nowotny chimney ladder compound Cr11Ge19

Yu Li, X. Gui, Mojammel A. Khan, W. Xie, D. Young, J. Ditusa
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Abstract

We have investigated the magnetic and charge transport properties of single crystals of Nowotney Chimney Ladder compound Cr$_{11}$Ge$_{19}$ and mapped out a comprehensive phase diagram reflecting the complicated interplay between the Dzyaloshinskii-Moriya (DM) interaction, the dipolar interaction, and the magnetic anisotropy. We have identified a set of interesting magnetic phases and attributed a finite topological Hall effect to the recently discovered bi-skyrmion phase. These data also suggest the existence of an anti-skyrmion state at finite fields for temperatures just below the magnetic ordering temperature, $T_c$, as indicated by a distinct change in sign of the topological Hall effect. Above $T_c$, we discovered a region of enhanced magnetic response corresponding to a disordered phase likely existing near the ferromagnetic critical point under small magnetic fields. Strong spin chirality fluctuations are demonstrated by the large value of the topological Hall resistivity persisting up to 1 T which is most likely due to the existence of the DM interaction. We argue that changes to the topological Hall effect correspond to different topological spin textures that are controlled by magnetic dipolar and DM interactions that vary in importance with temperature.
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诺沃特尼烟囱阶梯化合物Cr11Ge19的拓扑霍尔效应和磁态
研究了nootney烟囱梯化合物Cr$_{11}$Ge$_{19}$单晶的磁性和电荷输运性质,绘制了反映Dzyaloshinskii-Moriya (DM)相互作用、偶极相互作用和磁各向异性之间复杂相互作用的综合相图。我们已经确定了一组有趣的磁相,并将有限拓扑霍尔效应归因于最近发现的双斯基米子相。这些数据还表明,在温度刚好低于磁有序温度$T_c$的有限场中,存在反斯基米子态,正如拓扑霍尔效应符号的明显变化所表明的那样。在$T_c$上方,我们发现了一个磁响应增强的区域,对应于小磁场下铁磁临界点附近可能存在的无序相。强的自旋手性波动表现为拓扑霍尔电阻率的大值,持续到1t,这很可能是由于DM相互作用的存在。我们认为拓扑霍尔效应的变化对应于不同的拓扑自旋织构,这些织构由磁偶极子和DM相互作用控制,其重要性随温度而变化。
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