首页 > 新闻公告 > CEM研究国际动态 CEM研究国际动态
Resonant internal quantum transitions and femtosecond radiative decay of excitons in monolayer WSe2

Atomically thin two-dimensional crystals have revolutionized materials science. In particular, monolayer transition metal dichalcogenides promise novel optoelectronic applications, owing to their direct energy gaps in the optical range. Their electronic and optical properties are dominated by Coulomb-bound electron-hole pairs called excitons, whose unusual internal structure, symmetry, many-body effects and dynamics have been vividly discussed. Here we report the first direct experimental access to all 1s A excitons, regardless of momentum—inside and outside the radiative cone—in single-layer WSe2. Phase-locked mid-infrared pulses reveal the internal orbital 1s–2p resonance, which is highly sensitive to the shape of the excitonic envelope functions and provides accurate transition energies, oscillator strengths, densities and linewidths. Remarkably, the observed decay dynamics indicates an ultrafast radiative annihilation of small-momentum excitons within 150 fs, whereas Auger recombination prevails for optically dark states. The results provide a comprehensive view of excitons and introduce a new degree of freedom for quantum control, optoelectronics and valleytronics of dichalcogenide monolayers


Nature Materials (2015) doi:10.1038/nmat4356
Received 09 February 2015 Accepted 18 June 2015 Published online 13 July 2015

http://www.nature.com/nmat/journal/vaop/ncurrent/full/nmat4356.html

发布日期:2015/07/20 发布者: 点击数: