Excited State Biexcitons in Atomically Thin MoSe2
Date
2017-07-03
Authors
Pei, Jiajie
Yang, Jiong
Wang, Xibin
Wang, Fan
Mokkapati, Sudha
Lu, Tieyu
Zheng, Jin-Cheng
Qin, Qinghua
Neshev, Dragomir
Tan, Hark Hoe
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American Chemical Society
Abstract
The tightly bound biexcitons found in atomically thin semiconductors have very promising applications for optoelectronic and quantum devices. However, there is a discrepancy between theory and experiment regarding the fundamental structure of these biexcitons. Therefore, the exploration of a biexciton formation mechanism by further experiments is of great importance. Here, we successfully triggered the emission of biexcitons in atomically thin MoSe2, via the engineering of three critical parameters: dielectric screening, density of trions, and excitation power. The observed binding energy and formation dynamics of these biexcitons strongly support the model that the biexciton consists of a charge attached to a trion (excited state biexciton) instead of four spatially symmetric particles (ground state biexciton). More importantly, we found that the excited state biexcitons not only can exist at cryogenic temperatures but also can be triggered at room temperature in a freestanding bilayer MoSe2. The demonstrated capability of biexciton engineering in atomically thin MoSe2 provides a route for exploring fundamental many-body interactions and enabling device applications, such as bright entangled photon sources operating at room temperature.
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Keywords
MoSe2, biexciton, two-dimensional materials, freestanding, room temperature
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Source
ACS Nano
Type
Journal article
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2099-12-31
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