Der Artikel wurde vom GRL-Redaktionsteam als “Editor’s Highlight” eingestuft und mit folgenden Worten gelobt: “This manuscript demonstrates the importance of organic nitrates in forming aerosol particles that are less than 1 micrometer in diameter (PM1) throughout Europe. PM1 is a major cause of air pollution and affects human health, as well as directly and indirectly climate. Organic nitrates are
clouds over Mindelo (Cabo Verde) by means of continuous multiwavelength lidar observations, University Leipzig, (M.Sc.) Skupin, N. 2024: Evaluation of cross-talk effect on the retrieval of atmospheric particle extinction coefficient profiles by using a rotational-Raman lidar, University Leipzig, (B.Sc.), ( PDF ) Müller, G.: Seasonal analysis of dust and non-dust aerosol properties above Dushanbe, Tajikistan [...] Detection Algorithm for EarthCARE's Multi-Spectral Imager, University Leipzig, (M.Sc.) 2023 Gast, B. 2023: Implementation of a Fluorescence channel in a multiwavelength lidar system to measure biological particles in the atmosphere, University Leipzig, (M.Sc.), ( PDF ) Ohneiser, K. 2023: Lidar Observations of Record-breaking Stratospheric Wildfire Smoke Events in 2019-2021: Siberian Smoke over the Central Arctic [...] 2007 Baars, H. 2007. Continuous monitoring of the planetary-boundary-layer depth with lidar, Universität Leipzig, 67 S. (Diplomarbeit) ( PDF ) Müller, D. 2007. Characterization of Free-Tropospheric Particles With Multiwavelength Raman Lidar: Geometrical, Optical, and Microphysical Properties of Aerosol Pollution From Europe, North Africa, South Asia, and North America. Universität Leipzig, 208 S. (Ha
Gremien/Mitgliedschaften: seit 2024: nationale SOLAS Repräsentantin 2019-2022: Gast-Editorin der Spezialausgabe: Marine organic matter: from biological production in the ocean to organic aerosol particles and marine clouds (ACP/OS inter-journal SI) 2015: Teilnehmende am "Future Leaders Programme of the Science and Technology in Society Forum" (STS-Forum), Kyoto, Japan seit 2012: Mitglied des internen
optical and microphysical properties of elevated aerosol layers and clouds Science oriented activities : demonstrate the aerosol observing capabilities of Aeolus with a focus on long-range transport of particles, e.g. volcanic ash, wildfire smoke or dust and their interaction with clouds. Current project Aeolus-DISC Curriculum vitae 2022 – today : Research Engineer / PhD candidate at TROPOS within ESA ADM-Aeolus
Ehn, Hanna Vehkamäki, Theo Kurten, Torsten Berndt, Tuukka Petäjä, Douglas Worsnop, Darius Ceburnis, Veli-Matti Kerminen, Markku Kulmala and Colin O’Dowd (2016): Molecular-scale evidence of aerosol particle formation via sequential addition of HIO3. Nature 537, 532–534 (22 September 2016). doi:10.1038/nature19314 http://www.dx.doi.org/10.1038/nature19314 Die Untersuchungen wurden gefördert durch die
refractive index, and partly also the shape of aerosol particles and thus also their optical, radiative and nucleating properties (e.g., Haarig et al., 2017). PollyXT Raman lidars (Engelmann et al., 2016) have the capability to measure water vapor mixing ratio (e.g., Dai et al., 2018). Simultaneous profiling of water vapor mixing ratio and particle optical properties allow to study aerosol hygroscopicity
Rusumdar, A. J. , A. Tilgner , R. Wolke , and H. Herrmann (2020), Treatment of non-ideality in the SPACCIM multiphase model - Part 2: Impacts on the multiphase chemical processing in deliquesced aerosol particles, Atmos. Chem. Phys. , 20 (17), 10351-10377, doi:doi:10.5194/acp-20-10351-2020. Rusumdar, A. J. , R. Wolke , A. Tilgner , and H. Herrmann (2016), Treatment of non-ideality in the SPACCIM multiphase
pollution at ground level with mobile measurements. Remote sensing measurements and dust event forecasts were performed throughout the campaign period. Aerosols samples were collected at different particle size cutoffs which were later used for chemical, physical, microbiological and toxicological analyses. Additionally, sampling for bioaerosols was done. Finally, these analyses will be further used
of cloud droplet formation under realistic supersaturation conditions, J. Atmos. Oceanic Technol., 21 (6), 876-887, 2004. Z. Ulanowski , E. Hirst, P.H. Kaye, R.S. Greenaway: Retrieving the size of particles with rough surfaces from 2D scattering patterns: J. Quant. Spectr. Rad. Trans., 113(18), 2457-2464, doi: 10.1016/j.jqsrt.2012.06.019, 2012. J. Voigtländer ,C. Chou, H. Bieligk, T. Clauss, S. Hartmann
en, z. B. der Entstehung von Wolkentropfen an sogenannte Kondensationskeime (CCN, engl.: cloud condensation nuclei) und das durch bestimmte Aerosolpartikel, sogenannte INP (engl.: ice nucleating particles), ausgelöste Gefrieren von Wolkentropfen (siehe auch Wolkenmikrophysik ). Z. B. zeigen Abb. 3 und 4 eine deutlich ausgeprägtere Mischphase mit COSMO-SPECS, in der Wolkentropfen und Eispartikel ko
