CHIMIA (May 2017)

Time-resolved ARPES at LACUS: Band Structure and Ultrafast Electron Dynamics of Solids

  • Alberto Crepaldi,
  • Majed Chergui,
  • Helmuth Berger,
  • Arnaud Magrez,
  • Philippe Bugnon,
  • Frank van Mourik,
  • José Ojeda,
  • Christopher A. Arrell,
  • Gianmarco Gatti,
  • Silvan Roth,
  • Marco Grioni

DOI
https://doi.org/10.2533/chimia.2017.273
Journal volume & issue
Vol. 71, no. 5

Abstract

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The manipulation of the electronic properties of solids by light is an exciting goal, which requires knowledge of the electronic structure with energy, momentum and temporal resolution. Time- and angle-resolved photoemission spectroscopy (tr-ARPES) is the most direct probe of the effects of an optical excitation on the band structure of a material. In particular, tr-ARPES in the extreme ultraviolet (VUV) range gives access to the ultrafast dynamics over the entire Brillouin zone. VUV tr-ARPES experiments can now be performed at the ASTRA (ARPES Spectrometer for Time-Resolved Applications) end station of Harmonium, at LACUS. Its capabilities are illustrated by measurements of the ultrafast electronic response of ZrSiTe, a novel topological semimetal characterized by linearly dispersing states located at the Brillouin zone boundary.

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