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Strong Coupling of Coherent Phonons to Excitons in Semiconducting Monolayer MoTe2

Nano Lett. 2023 Oct 25;23(20):9235-9242. doi: 10.1021/acs.nanolett.3c01936. Epub 2023 Sep 26.

Abstract

The coupling of the electron system to lattice vibrations and their time-dependent control and detection provide unique insight into the nonequilibrium physics of semiconductors. Here, we investigate the ultrafast transient response of semiconducting monolayer 2H-MoTe2 encapsulated with hBN using broadband optical pump-probe microscopy. The sub-40 fs pump pulse triggers extremely intense and long-lived coherent oscillations in the spectral region of the A' and B' exciton resonances, up to ∼20% of the maximum transient signal, due to the displacive excitation of the out-of-plane A1g phonon. Ab initio calculations reveal a dramatic rearrangement of the optical absorption of monolayer MoTe2 induced by an out-of-plane stretching and compression of the crystal lattice, consistent with an A1g -type oscillation. Our results highlight the extreme sensitivity of the optical properties of monolayer TMDs to small structural modifications and their manipulation with light.

Keywords: Coherent phonons; MoTe2; excitons; monolayer; transition metal dichalcogenides; two-dimensional materials; ultrafast spectroscopy.