Ju Hwiin, Lee Youjin, Kim Kwang-Tak, Choi In Hyeok, Roh Chang Jae, Son Suhan, Park Pyeongjae, Kim Jae Ha, Jung Taek Sun, Kim Jae Hoon, Kim Kee Hoon, Park Je-Geun, Lee Jong Seok
Department of Physics and Photon Science, Gwangju Institute of Science and Technology (GIST), Gwangju 61005, Republic of Korea.
Center for Quantum Materials, Seoul National University, Seoul 08826, Republic of Korea.
Nano Lett. 2021 Jun 23;21(12):5126-5132. doi: 10.1021/acs.nanolett.1c01095. Epub 2021 Jun 7.
Realizing a state of matter in two dimensions has repeatedly proven a novel route of discovering new physical phenomena. Van der Waals (vdW) materials have been at the center of these now extensive research activities. They offer a natural way of producing a monolayer of matter simply by mechanical exfoliation. This work demonstrates that the possible multiferroic state with coexisting antiferromagnetic and ferroelectric orders persists down to the bilayer flake of NiI. By exploiting the optical second-harmonic generation technique, both magnitude and direction of the ferroelectric order, arising from the cycloidal spin order, are successfully traced. The possible multiferroic state's transition temperature decreases from 58 K for the bulk to about 20 K for the bilayer. Our observation will spur extensive efforts to demonstrate multifunctionality in vdW materials, which have been tried mostly by using heterostructures of singly ferroic ones until now.
实现二维物质状态已多次被证明是发现新物理现象的一条新途径。范德华(vdW)材料一直是这些目前广泛研究活动的核心。它们提供了一种仅通过机械剥离就能制备单层物质的自然方法。这项工作表明,具有共存反铁磁和铁电有序的可能的多铁性状态一直持续到NiI的双层薄片。通过利用光学二次谐波产生技术,成功追踪了由摆线自旋序产生的铁电有序的大小和方向。可能的多铁性状态的转变温度从体材料的58 K降至双层的约20 K。我们的观察将促使人们做出广泛努力,以证明vdW材料中的多功能性,到目前为止,人们大多通过使用单铁性材料的异质结构来尝试实现这一点。
