Author Affiliations
1 Anhui Institute of Meteorology and Sciences, Hefei, Anhui 230031, China2 Key Laboratory of Atmospheric Sciences and Satellite Remote Sensing of Anhui Province, Hefei, Anhui 230031, China3 Shouxian National Climatology Observatory, Huainan, Anhui 232200, China4 Anhui Center of Atmospheric Detection Technology Support, Hefei, Anhui 230031, Chinashow less
Fig. 1. Daily variation of optical depth of aerosol
Fig. 2. Daily average variation of scattering coefficient (the first kind). (a) Total scattering coefficient; (b) backscattering coefficient
Fig. 3. Daily average variation of scattering coefficient (the second kind). (a) Total scattering coefficient with visibility above 20 km; (b) backscattering coefficient with visibility above 20 km; (c) total scattering coefficient with visibility within 10-20 km; (d) backscattering coefficient with visibility within 10-20 km
Fig. 4. Daily average variation of single scattering albedo (the first kind)
Fig. 5. Daily average variation of single scattering albedo (the second kind)
Fig. 6. Daily average variation of absorption coefficient (the first kind)
Fig. 7. Daily average variation of absorption coefficient (the second kind)
Fig. 8. Seasonal average results of imaginary of aerosol refractive indices
Fig. 9. Daily average correlation between scattering coefficient (λ=450 nm) and PM mass concentration (the first kind). (a) PM1.0; (b) PM2.5; (c) PM10
Fig. 10. Daily average correlation between scattering coefficient (λ=450 nm) and PM mass concentration (the second kind). (a) PM1.0; (b) PM2.5; (c) PM10
Fig. 11. Daily average variation of backscattering ratio of aerosol (the first kind)
Fig. 12. Daily average variation of backscattering ratio of aerosol (the second kind)
Fig. 13. Daily average variation of asymmetry factor of aerosol (the first kind)
Fig. 14. Daily average variation of asymmetry factor of aerosol (the second kind)