Ultrafast Electronic and Structural Response of Monolayer MoS₂ under Intense Photoexcitation Conditions

Abstract

We report on the dynamical response of single layer transition metal dichalcogenide MoS₂ to intense above-bandgap photoexcitation using the nonlinear-optical second order susceptibility as a direct probe of the electronic and structural dynamics. Excitation conditions corresponding to the order of one electron–hole pair per unit cell generate unexpected increases in the second harmonic from monolayer films, occurring on few picosecond time-scales. These large amplitude changes recover on tens of picosecond time-scales and are reversible at megahertz repetition rates with no photoinduced change in lattice symmetry observed despite the extreme excitation conditions