Physical Review Research (Sep 2023)

Emergent trion-phonon coupling in atomically reconstructed MoSe_{2}-WSe_{2} heterobilayers

  • Sebastian Meier,
  • Yaroslav Zhumagulov,
  • Matthias Dietl,
  • Philipp Parzefall,
  • Michael Kempf,
  • Johannes Holler,
  • Philipp Nagler,
  • Paulo E. Faria Junior,
  • Jaroslav Fabian,
  • Tobias Korn,
  • Christian Schüller

DOI
https://doi.org/10.1103/PhysRevResearch.5.L032036
Journal volume & issue
Vol. 5, no. 3
p. L032036

Abstract

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In low-temperature resonant Raman experiments on MoSe_{2}-WSe_{2} heterobilayers, we identify a hybrid interlayer shear mode (HSM) with an energy close to the interlayer shear mode (SM) of the heterobilayers, but with a much broader, asymmetric lineshape. The HSM shows a pronounced resonance with the intralayer hybrid trions (HX^{−}) of the MoSe_{2} and WSe_{2} layers only. No resonance with the neutral intralayer excitons is found. First-principles calculations reveal a strong coupling of Q-valley states, which are delocalized over both layers and participate in the HX^{−} with the SM. This emerging trion-phonon coupling may be relevant for experiments on gate-controlled heterobilayers.