EPJ Web of Conferences (Jan 2019)

Lightwave control of the valley pseudospin in a monolayer of tungsten diselenide

  • Schmid Christoph P.,
  • Langer Fabian,
  • Schlauderer Stefan,
  • Gmitra Martin,
  • Fabian Jaroslav,
  • Nagler Philipp,
  • Schuller Christian,
  • Korn Tobias,
  • Hawkins Peter G.,
  • Steiner Johannes T.,
  • Huttner Ulrich,
  • Koch Stephan W.,
  • Kira Mackillo,
  • Huber Rupert

DOI
https://doi.org/10.1051/epjconf/201920505011
Journal volume & issue
Vol. 205
p. 05011

Abstract

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As conventional electronic is approaching its ultimate limits, tremendous efforts have been taken to explore novel concepts of ultrafast quantum control. Lightwave electronics - the foundation of attosecond science - has opened a spectacular perspective by utilizing the oscillating carrier wave of an intense light pulse to control the translational motion of the electron’s charge faster than a single cycle of light [1-7]. Despite their promising potential as future information carriers [8,10], the internal quantum attributes such as spins and valley pseudospins have not been switchable at optical clock rates. Here we demonstrate a novel subcycle control scheme of the electron’s pseudospin in a monolayer of tungsten diselenide using strong mid-infrared lightwaves [9]. Our work opens the door towards systematic valleytronic protocols at optical clock rates.