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• W4309083035 abstract "Bioaerosol aerosols originate from a biological source or a biologically active composition in the air everywhere, even in the presence of the ocean and polar regions. Bioaerosols are essential for research in many fields, such as public health safety, botany, and biological warfare. Laser-induced fluorescence technology is a method of using lasers to irradiate a medium so that the electrons in the medium that are originally in equilibrium absorb the photon energy of a specific wavelength and transition to different vibrational energy levels in the excited state, thereby emitting fluorescence of different wavelengths. The wavelength of fluorescence is always longer than the excitation wavelength. In this paper, a bioaerosol detection lidar is developed based on laser-induced fluorescence technology, which can perform fluorescence detection of biological substances at a certain distance, providing a certain basis for real-time detection of bioaerosols. The bioaerosol detection lidar developed in this study provides two laser wavelengths of 266 nm and 355 nm as excitation wavelengths for the detection of two fluorescent substances, tryptophan and riboflavin, contained in bioaerosols. In an outdoor environment, the lidar developed this time was used to verify the detection of tryptophan and riboflavin at different detection distances (30 m, 360 m, 1374 m). After analyzing the detection results, it is concluded that lidar can effectively detect two fluorescent substances, riboflavin and tryptophan, at 30 m, 360 m, and 1374 m." @default.
• W4309083035 created "2022-11-21" @default.
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• W4309083035 date "2022-11-15" @default.
• W4309083035 modified "2023-09-27" @default.
• W4309083035 title "Bioaerosol detection technology and experimental research based on laser-induced fluorescence" @default.
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• W4309083035 doi "https://doi.org/10.1117/12.2638359" @default.
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