The interlayer excitons (IXs) possess a much longer lifetime than direct excitons have been approved owing to the spatial separation of the electrons and holes; hence, they have been pursued to create exciton condensates for decades. The recent emergence of two-dimensional (2D) materials, such as transition metal dichalcogenides (TMDs), and of their van der Waals heterostructures (HSs) (in which two different 2D materials are layered together), has opened new opportunities to study IXs. Here we present the observation of IX gases within two stacked structures consisting of hBN/WSe$_2$/hBN/pWSe$_2$/hBN. The IX energy of the two structures differed by 82 meV, due to the different thickness of the hBN spacer layer between the TMD layers. We demonstrate the lifetime of the IXs is shortened by several folds when the temperature decreases or when the pump power increases. We attribute the nonlinear behavior of early decay to the Auger process. Our findings give rise to the possibility to design a new generation Quantum well-like TMDs microcavity for exploring the condensation.

Published in: "arXiv Material Science".