温度诱导的、与超晶格共格性耦合的铁旋转序的可逆切换
Temperature Induced, Reversible Switching of Ferro-Rotational Order Coupled to Superlattice Commensuralibity.
作者信息
Qi Weiyan, Dong Jingwei, Ponzoni Stefano, Huitric Guénolé, Grasset Romain, Laplace Yannis, Cario Laurent, Marsi Marino, Papalazarou Evangelos, Zobelli Alberto, Alekhin Alexandr, Gallais Yann, Bendounan Azzedine, Perfetti Luca
机构信息
Laboratoire des Solides Irradiés, CEA/DRF/lRAMIS, CNRS, Ecole Polytechnique, Institut Polytechnique de Paris, 91128 Palaiseau, France.
Université de Nantes, CNRS, Institut des Matériaux Jean Rouxel, IMN, Nantes, F-44000, France.
出版信息
Nano Lett. 2024 Oct 23;24(42):13134-13139. doi: 10.1021/acs.nanolett.4c02546. Epub 2024 Oct 10.
High-quality 1T-TaS crystals are investigated by angle-resolved photoelectron spectroscopy, Raman spectroscopy, and low-energy electron diffraction. The Ferro-Rotational Order (FRO) of the charge density wave switches configuration at the transition between the commensurate and the nearly commensurate phase. This process requires samples without built-in or externally induced strain. Moreover, temperature gradients generated by a focused laser beam can be employed in order to freeze the in-plane chirality. Based on such observations, we propose a protocol to obtain durable and nonvolatile state switching of the FRO configuration in bulk 1T-TaS crystals.
通过角分辨光电子能谱、拉曼光谱和低能电子衍射对高质量的1T-TaS晶体进行了研究。电荷密度波的铁旋转序(FRO)在 commensurate 相和近 commensurate 相之间的转变处切换构型。这个过程需要没有内置或外部诱导应变的样品。此外,可以利用聚焦激光束产生的温度梯度来冻结面内手性。基于这些观察结果,我们提出了一种在块状1T-TaS晶体中获得FRO构型的持久且非易失性状态切换的方案。
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