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        Mueller, Detlef (4)
        Tesche, Matthias (3)Ferrare, Richard A. (2)Hostetler, Chris A. (2)Shin, Sung-Kyun (2)Burton, Sharon P. (1)Chemyakin, Eduard V. (1)Haarig, Moritz (1)Kolgotin, Alexei (1)Kolgotin, Alexei V. (1)... View MoreDate Issued
        2019 (4)
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        School of Physics, Astronomy and Mathematics (4)

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        3+2 + X: what is the most useful depolarization input for retrieving microphysical properties of non-spherical particles from lidar measurements using the spheroid model of Dubovik et al. (2006)? 

        Tesche, Matthias; Kolgotin, Alexei; Haarig, Moritz; Burton, Sharon P.; Ferrare, Richard A.; Hostetler, Chris A.; Mueller, Detlef (2019-08-19)
        The typical multiwavelength aerosol lidar data set for inversion of optical to microphysical parameters is composed of three backscatter coefficients (β) at 355, 532, and 1064 nm and two extinction coefficients (α) at 355 ...

        Aerosol-type classification based on AERONET version 3 inversion products 

        Shin, Sung-Kyun; Tesche, Matthias; Mueller, Detlef; Now, Youngmin (2019-07-11)
        This study proposes an aerosol-type classification based on the particle linear depolarization ratio (PLDR) and single-scattering albedo (SSA) provided in the AErosol RObotic NETwork (AERONET) version 3 level 2.0 inversion ...

        Automated, unsupervised inversion of multiwavelength lidar data with TiARA : Assessment of retrieval performance of microphysical parameters using simulated data 

        Mueller, Detlef; Chemyakin, Eduard V.; Kolgotin, Alexei V.; Ferrare, Richard A.; Hostetler, Chris A.; Romanov, A. (2019-06-18)
        We evaluate the retrieval performance of the automated, unsupervised inversion algorithm, Tikhonov Advanced Regularization Algorithm (TiARA), which is used for the autonomous retrieval of microphysical parameters of ...

        Technical note: Absorption aerosol optical depth components from AERONET observations of mixed dust plumes 

        Shin, Sung-Kyun; Tesche, Matthias; Mueller, Detlef; Noh, Youngmin (2019-01-30)
        Absorption aerosol optical depth (AAOD) as obtained from sun–sky photometer measurements provides a measure of the light-absorbing properties of the columnar aerosol loading. However, it is not an unambiguous aerosol-type-specific ...
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