APS -APS March Meeting 2017 - Event - Exploring ultrafast dynamics in photoexcited layered materials by large-scale quantum molecular dynamics simulations

摘要

Understanding ultrafast dynamics in photoexcited few-layer transition metal dichalcogenide crystals is crucial for synthesis and functionalization of these materials. These dynamics also hold the key to unraveling phenomena such as anisotropic thermal transport and anomalous lattice expansion. But, a thorough investigation of such dynamics requires computationally-demanding extit{ab initio} methods to capture electron-phonon interactions as well as a laterally-large simulation cells to account for long-range vibrational modes that are not sampled in small-scale DFT calculations. Here, we present results from our non-adiabatic QMD simulations of mono and few-layer TMDCs at experimentally-realized sub-$mu$m length scales, made possible through our linear-scaling DFT method. We discuss how large-scale simulations allow us to model phenomena like electron-lattice coupling, correlated atomic motion and localized configurational change and address recent experimental observations in these material systems.