2D proximate quantum spin liquid state in atomic-thin α-RuCl 3

Research output: Contribution to journalArticleScientificpeer-review

Researchers

  • Luojun Du

  • Yuan Huang
  • Yimeng Wang
  • Qinqin Wang
  • Rong Yang
  • Jian Tang
  • Mengzhou Liao
  • Dongxia Shi
  • Youguo Shi
  • Xingjiang Zhou
  • Qingming Zhang
  • Guangyu Zhang

Research units

  • Chinese Academy of Sciences
  • Renmin University of China
  • Songshan Lake Materials Laboratory
  • Lanzhou University
  • Collaborative Innovation Center of Quantum Matter

Abstract

Two-dimensional (2D) atomic crystals have made major inroads into condensed-matter physics and give rise to fascinating phenomena due to quantum confinement. Here we report the first Raman scattering study on phonon-magnetic scattering coupling, proximate quantum spin liquid ground state and collective fractionalized excitations in exfoliated α-RuCl 3 atomic layers. Our results uncover that 2D α-RuCl 3 could harbour the unusual magnetic continuum, serving as a hallmark of the 2D proximate quantum spin liquid state and frustrated magnetic interactions. More importantly, our work demonstrates that the unusual magnetic scattering, as compared with bulk, is more obvious in 2D α-RuCl 3, indicating that the frustrated magnetic interactions are enhanced strongly. Such unusual enhancement of frustrated magnetic interactions may be responsible for the gigantic phonon-magnetic scattering coupling of 2D α-RuCl 3 and play a key role in stabilizing the 2D proximate quantum spin liquid state. Our work establishes a firm basis for exploring and understanding the 2D proximate quantum spin liquid and fractionalized excitations based on the atomically thin α-RuCl 3.

Details

Original languageEnglish
Article number015014
Number of pages8
Journal2D Materials
Volume6
Issue number1
Publication statusPublished - 1 Jan 2019
MoE publication typeA1 Journal article-refereed

    Research areas

  • alpha-RuCl3, 2D quantum spin liquid, fractionalized excitation, frustrated magnetic interactions, phonon-magnetic scattering coupling, SUPERCONDUCTIVITY, FERROMAGNETISM, MONOLAYER, GRAPHENE, SCATTERING, INSULATOR, CRYSTALS, MAGNET, ANYONS, ORDER

ID: 30261495