期刊
OPTICS LETTERS
卷 48, 期 16, 页码 4308-4311出版社
Optica Publishing Group
DOI: 10.1364/OL.496658
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Coherent Raman spectroscopy (CRS) with air-laser-based hybrid femtosecond/picosecond (fs/ps) pulses has shown promising potential for remote detection and surveillance of atmospheric species with high temporal and frequency resolution. By generating CRS spectra in a filamentary plasma grating, the intensities of coherent vibrational Raman lines can be efficiently enhanced for air molecules like N-2, O-2, and N-2(+), significantly extending the detection distance. The optimization of Raman lines is achieved by balancing the supercontinuum-induced vibrational coherence and air-laser-induced polarization of the air species.
Coherent Raman spectroscopy (CRS) with air-laser-based hybrid femtosecond/picosecond (fs/ps) pulses has shown promising potential for remote detection and surveillance of atmospheric species with high temporal and frequency resolution. Here, to enhance the sensitivity and extend the detection distance, we generate the CRS spectra of air molecules in situ in a filamentary plasma grating, and show that the grating can efficiently enhance the intensities of the coherent vibrational Raman lines of N-2, O-2, and N-2(+) by 2-3 orders of magnitude at an extended distance. By examining the intensities of the Raman lines, fs-pulsed supercontinuum, and ps-pulsed air laser produced under different grating conditions, we reveal that the optimization of the Raman lines is achieved by the dynamic balance between the supercontinuum-induced vibrational coherence and air-laser-induced polarization of the air species. (c) 2023 Optica Publishing Group
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