Advanced Science (Jan 2022)

Destructive Photon Echo Formation in Six‐Wave Mixing Signals of a MoSe2 Monolayer

  • Thilo Hahn,
  • Diana Vaclavkova,
  • Miroslav Bartos,
  • Karol Nogajewski,
  • Marek Potemski,
  • Kenji Watanabe,
  • Takashi Taniguchi,
  • Paweł Machnikowski,
  • Tilmann Kuhn,
  • Jacek Kasprzak,
  • Daniel Wigger

DOI
https://doi.org/10.1002/advs.202103813
Journal volume & issue
Vol. 9, no. 1
pp. n/a – n/a

Abstract

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Abstract Monolayers of transition metal dichalcogenides display a strong excitonic optical response. Additionally encapsulating the monolayer with hexagonal boron nitride allows to reach the limit of a purely homogeneously broadened exciton system. On such a MoSe2‐based system, ultrafast six‐wave mixing spectroscopy is performed and a novel destructive photon echo effect is found. This process manifests as a characteristic depression of the nonlinear signal dynamics when scanning the delay between the applied laser pulses. By theoretically describing the process within a local field model, an excellent agreement with the experiment is reached. An effective Bloch vector representation is developed and thereby it is demonstrated that the destructive photon echo stems from a destructive interference of successive repetitions of the heterodyning experiment.

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