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Study of ultrafast Rabi flopping in colloidal quantum dots at room temperature

2021-10-21

 

Author(s): Xu, XS (Xu, Xingsheng); Zhen, Z (Zhen, Zhen); Jin, SY (Jin, Siyue); Ren, J (Ren, Jie)

Source: COMMUNICATIONS PHYSICS Volume: 4 Issue: 1 Article Number: 222 DOI: 10.1038/s42005-021-00724-y Published: OCT 7 2021

Abstract: The interaction between high-intensity ultrashort optical pulses and materials has led to a number of fascinating optical phenomena, including Rabi flopping and self-induced transparency. Until now, there have been few reports on ultrashort coherent pulse propagation and reshaping in semiconductor materials. Here we investigate Rabi flopping and Rabi splitting in colloidal quantum dots with Fabry-Perot cavity of SU8/Si. The Rabi flopping phenomenon is monitored via the pump-probe differential reflection spectroscopy. A high excitation power reshapes the temporal oscillations so that the fast Fourier transform spectra display several peaks. The photoluminescence spectrum by continuous-wave excitation splits under a proper incident angle, and the splitted photoluminescence spectrum is generally consistent with the amplitude of differential reflectivity as function of wavelength. These results demonstrate that both of the temporal oscillations and the splitting of the continuous-wave excited photoluminescence spectra are due to strong coupling between colloidal quantum dots and the Fabry-Perot cavity.

Strong light-matter coupling can be achieved using the optical modes of microcavities and the underlying physics explored using ultrafast spectroscopic techniques. Here, the authors investigate the strong coupling regime between colloidal quantum dots and optical cavities and using femtosecond pump-probe spectroscopy and photoluminescence spectroscopy investigate the role of Rabi flopping.

Accession Number: WOS:000705852600001

ISSN: 2399-3650

Full Text: https://www.nature.com/articles/s42005-021-00724-y



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