Physical Review Research (Jul 2022)

Observation of orbital order in the van der Waals material 1T-TiSe_{2}

  • Yingying Peng,
  • Xuefei Guo,
  • Qian Xiao,
  • Qizhi Li,
  • Jörg Strempfer,
  • Yongseong Choi,
  • Dong Yan,
  • Huixia Luo,
  • Yuqing Huang,
  • Shuang Jia,
  • Oleg Janson,
  • Peter Abbamonte,
  • Jeroen van den Brink,
  • Jasper van Wezel

DOI
https://doi.org/10.1103/PhysRevResearch.4.033053
Journal volume & issue
Vol. 4, no. 3
p. 033053

Abstract

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Besides magnetic and charge order, regular arrangements of orbital occupation constitute a fundamental order parameter of condensed matter physics. Even though orbital order is difficult to identify directly in experiments, its presence was firmly established in a number of strongly correlated, three-dimensional Mott insulators. Here, reporting resonant x-ray-scattering experiments on the layered van der Waals compound 1T-TiSe_{2}, we establish that the known charge density wave in this weakly correlated, quasi-two-dimensional material corresponds to an orbital ordered phase. Our experimental scattering results are consistent with first-principles calculations that bring to the fore a generic mechanism of close interplay between charge redistribution, lattice displacements, and orbital order. It demonstrates the essential role that orbital degrees of freedom play in TiSe_{2}, and their importance throughout the family of correlated van der Waals materials.