Opto-Electronic Advances
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2019 Vol. 2, No. 5
Cover Story:Li B W, Zu S, Zhang Z P, Zheng L H, Jiang Q et al. Large Rabi splitting obtained in Ag-WS2 strong-coupling heterostructure with optical microcavity at room temperature. Opto-Electron Adv 2, 190008 (2019).

In recent years, the interaction between surface plasmons and transition metal disulfides (TMDCs) has generated broad extensive attention and research. However, so far, the Rabi splitting obtained by the strong coupling between surface plasmon and TMDCs exciton is usually about 100 meV, which is much smaller than that of other materials (such as J-polymer, semiconductor quantum dots, etc.). The small Rabi splitting greatly limits the application of TMDCs in the study of strong coupling. In addition, due to the inherent loss of metallic surface plasmon, the observation of strong coupling is significantly limited.
To solve these problems, by fabricating a plasmon-exciton-cavity hybrid structure, Prof. Zheyu Fang's team at Peking University successfully realized strong plasmon-exciton-cavity coupling under ambient conditions, and obtained about 300 meV Rabi splitting.
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Online Time:May 14, 2019
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Cite this article:
Li B W, Zu S, Zhang Z P, Zheng L H, Jiang Q et al. Large Rabi splitting obtained in Ag-WS2 strong-coupling heterostructure with optical microcavity at room temperature. Opto-Electron Adv 2, 190008 (2019). 
Online Time:May 14, 2019
View: HTML | PDF | Download PDF(4161.7 KB) | ESI
Cite this article:
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