EPJ Web of Conferences (Jan 2020)

Is Near-Spherical Shape “the New Black” for Smoke ?

  • Gialitaki Anna,
  • Tsekeri Alexandra,
  • Amiridis Vassilis,
  • Ceolato Romain,
  • Paulien Lucas,
  • Proestakis Emmanouil,
  • Marinou Eleni,
  • Haarig Moritz,
  • Baars Holger,
  • Balis Dimitris

DOI
https://doi.org/10.1051/epjconf/202023702017
Journal volume & issue
Vol. 237
p. 02017

Abstract

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We present smoke lidar measurements from the Canadian fires of 2017. The advected smoke layers over Europe are detected at both tropospheric and stratospheric heights, with the latter presenting non-typical values of the Particle Linear Depolarization Ratio (PLDR) with strong wavelength dependence from the UV to the Near-IR. Specifically, the PLDR values are of the order of 22, 18 and 4% at 355, 532 and 1064 nm respectively. In an attempt to interpret these results, we apply the hypothesis that smoke particles have near-spherical shapes. Scattering calculations with the T-matrix code support other findings in the literature ([1]- [2]), showing that the near-spherical shape (or closely similar shapes as in [2]), is the only shape that has been shown to reproduce the observed PLDR and Lidar Ratio (LR) values of the stratospheric smoke particles at the three measurement wavelengths.