[1] Liu X W. Effect of NaCl particulate matter pollution on leaf traits of pinus tabulaeformis and populus alba × P.Berolinensis[D], 50-53(2022).

[2] Xiao K, Dong C F, Li X G et al. Synergetic effect of NaCl in polluted atmosphere to AZ91D magnesium alloys[J]. Equipment Environmental Engineering, 3, 26-29(2006).

[3] Wang Y Q. Study on aerosol pollution detection based on lidar in Shandong[D], 3-4(2022).

[4] Sun Y N, Man B Y, Gao X et al. Time evolution characteristics of Zn plasma spectra induced by femtosecond laser[J]. Chinese Journal of Lasers, 43, 0115002(2016).

[5] Zimmer W, Rodriguez M, Wöste L. Application perspectives of intense laser pulses in atmospheric diagnostics[M]. Hering P, Lay J P, Stry S. Laser in environmental and life sciences, 19-33(2004).

[6] Fujii T, Goto N, Miki M et al. Lidar measurement of constituents of microparticles in air by laser-induced breakdown spectroscopy using femtosecond terawatt laser pulses[J]. Optics Letters, 31, 3456-3458(2006).

[7] Daigle J F, Méjean G, Liu W et al. Long range trace detection in aqueous aerosol using remote filament-induced breakdown spectroscopy[J]. Applied Physics B, 87, 749-754(2007).

[8] Álvarez-Trujillo L A, Lazic V, Moros J et al. Standoff monitoring of aqueous aerosols using nanosecond laser-induced breakdown spectroscopy: droplet size and matrix effects[J]. Applied Optics, 56, 3773-3782(2017).

[9] Golik S S, Mayor A Y, Lisitsa V V et al. Limits of detection of chemical elements in an aqueous aerosol in filament-induced breakdown spectroscopy[J]. Journal of Applied Spectroscopy, 88, 337-342(2021).

[10] Jacquinot P. The luminosity of spectrometers with prisms, gratings, or Fabry-Perot etalons[J]. Journal of the Optical Society of America, 44, 761-765(1954).

[11] Hao Z B, Ye H Q, Tang L et al. Improvement of wavelength calibration accuracy of astronomical high-resolution spectrometers with Fabry-Perot etalons[J]. Acta Optica Sinica, 42, 0112002(2022).

[12] Zhuang P, Shen F H, Wang B X et al. Rayleigh-Mie wind lidar based on Fabry-Perot interferometer[J]. Chinese Journal of Lasers, 47, 1210001(2020).

[13] Buisson H, Fabry C, Bourget H. An application of interference to the the study of the Orion nebula[J]. The Astrophysical Journal Letters, 40, 241(1914).

[14] Rangwala N, Williams T B, Pietraszewski C et al. An imaging Fabry-Pérot system for the Robert stobie spectrograph on the southern African large telescope[J]. The Astronomical Journal, 135, 1825-1836(2008).

[15] Shiokawa K, Otsuka Y, Oyama S et al. Development of low-cost sky-scanning Fabry-Perot interferometers for airglow and auroral studies[J]. Earth, Planets and Space, 64, 1033-1046(2012).

[16] Wang J, Yuan M, Chen N et al. Continuous tunable cavity Fabry-Perot interferometer by using potassium dideuterium phosphate with two ring electrodes[J]. Applied Optics, 58, 4425(2019).

[17] Veenendaal I, Naylor D, Gom B et al. An angle-scanned cryogenic Fabry-Pérot interferometer for far-infrared astronomy[J]. Review of Scientific Instruments, 91, 083108(2020).

[18] Kuhn J, Bobrowski N, Wagner T et al. Mobile and high-spectral-resolution Fabry-Pérot interferometer spectrographs for atmospheric remote sensing[J]. Atmospheric Measurement Techniques, 14, 7873-7892(2021).

[19] Chau J H, Hsieh C C, Lin Y M et al. Preparation of transparent silica-PMMA nanocomposite hard coatings[J]. Progress in Organic Coatings, 62, 436-439(2008).

[20] Qian F. Hysteresis characteristics study of PZT in heterodyne interferometric nano-positioning system[D], 15-18(2015).

[21] Yu D Y, Tan H Y[M]. Engineering optics(2016).

[22] Fei Y T[M]. Error theory and data processing(2004).

[23] Meyer J, Untiet V, Fahlke C et al. Quantitative determination of cellular [Na+] by fluorescence lifetime imaging with CoroNaGreen[J]. The Journal of General Physiology, 151, 1319-1331(2019).

[24] Fitzgerald C, Hosny N A, Tong H et al. Fluorescence lifetime imaging of optically levitated aerosol: a technique to quantitatively map the viscosity of suspended aerosol particles[J]. Physical Chemistry Chemical Physics, 18, 21710-21719(2016).

[25] Eickmans J H, Hsieh W F, Chang R K. Plasma spectroscopy of H, Li, and Na in plumes resulting from laser-induced droplet explosion[J]. Applied Optics, 26, 3721-3725(1987).

[26] Shang J J, Zhu X W, Zhang H et al. Design of Fabry-Pérot cavity with low vibration sensitivity[J]. Laser & Optoelectronics Progress, 59, 0714003(2022).