Imajo S, Matsuyama N, Nomura T, Kihara T, Nakamura S, Marcenat C, Klein T, Seyfarth G, Zhong C, Kageyama H, Kindo K, Momoi T, Kohama Y
Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.
Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan.
Phys Rev Lett. 2022 Sep 30;129(14):147201. doi: 10.1103/PhysRevLett.129.147201.
We investigated the low-temperature and high-field thermodynamic and ultrasonic properties of SrCu_{2}(BO_{3}){2}, which exhibits various plateaux in its magnetization curve above 27 T, called a magnetic Devil's staircase. The results of the present study confirm that magnetic crystallization, the first step of the staircase, occurs above 27 T as a first-order transition accompanied by a sharp singularity in heat capacity C{p} and a kink in the elastic constant. In addition, we observe a thermodynamic anomaly at lower fields around 26 T, which has not been previously detected by any magnetic probes. At low temperatures, this magnetically hidden state has a large entropy and does not exhibit Schottky-type gapped behavior, which suggests the existence of low-energy collective excitations. Based on our observations and theoretical predictions, we propose that magnetic quadrupoles form a spin-nematic state around 26 T as a hidden state on the ground floor of the magnetic Devil's staircase.
我们研究了SrCu₂(BO₃)₂的低温和高场热力学及超声性质,该物质在27 T以上的磁化曲线中呈现出各种平台,被称为磁恶魔阶梯。本研究结果证实,阶梯的第一步——磁结晶,在27 T以上作为一级相变发生,伴随着热容Cp的尖锐奇点和弹性常数的扭结。此外,我们在26 T左右的较低场强处观察到一个热力学异常现象,此前任何磁探针都未检测到这一现象。在低温下,这种磁隐藏态具有较大的熵,且不表现出肖特基型能隙行为,这表明存在低能集体激发。基于我们的观察和理论预测,我们提出磁四极子在26 T左右形成一种自旋向列态,作为磁恶魔阶梯底层的隐藏态。