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user:afoth [2021/03/08 10:51] Andreas Fothuser:afoth [2025/11/05 09:04] (current) Andreas Foth
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 My research mainly addresses the determination of the state of the atmosphere using ground-based and spaceborn remote sensing, both active and passive. Which measurement instruments can be usefully combined to observe a height profile of the entire troposphere, especially during cloud cover and precipitation? How could we use such measurements to parameterize precipitation evaporation, for example? My research mainly addresses the determination of the state of the atmosphere using ground-based and spaceborn remote sensing, both active and passive. Which measurement instruments can be usefully combined to observe a height profile of the entire troposphere, especially during cloud cover and precipitation? How could we use such measurements to parameterize precipitation evaporation, for example?
  
-===== Current project =====+===== Projects =====
  
 +==== Current ====
 +**Process-level Understanding of Sublimation and Evaporation of Precipitation** as part of the (AC)3 project.\\
 +Duration: 06/2024 - 12/2027\\
 +Funded by: DFG Deutsche Forschungsgemeinschaft\\
 +[[https://ac3-tr.de/pages/e05.html|Show details]]
 +
 +==== Completed ====
 **A novel synergistic retrieval approach to enable tropospheric temperature and humidity profiling under all weather conditions for an improved quantification of evaporation rates**\\ **A novel synergistic retrieval approach to enable tropospheric temperature and humidity profiling under all weather conditions for an improved quantification of evaporation rates**\\
 Duration: 04/2020 - 03/2023\\ Duration: 04/2020 - 03/2023\\
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   * Atmospheric retrieval algorithm development   * Atmospheric retrieval algorithm development
   * Synergy of measurement systems   * Synergy of measurement systems
-  * Precipitation evaporation parameterization+  * Sublimation and evaporation of precipitation with special focus on Arctic clouds
   * Derivation of aerosol optical properties based on Raman lidar technique   * Derivation of aerosol optical properties based on Raman lidar technique
  
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 ===== Publications ===== ===== Publications =====
  
-**2020** +**2025**
  
-AnsmannA., OhneiserK., MamouriR.-E., Knopf, D. A., Veselovskii, I., Baars, H., EngelmannR., **Foth, A.**, JimenezC., Seifert, P., and BarjaB.: Tropospheric and stratospheric wildfire smoke profiling with lidar: Mass, surface area, CCN and INP retrieval, Atmos. ChemPhysDiscuss. [preprint], https://doi.org/10.5194/acp-2020-1093, in review2020+RoschkeJ., WitthuhnJ., KlingebielM., HaarigM., **Foth, A.**, KötscheA., and Kalesse-LosH.: Discriminating between “drizzle or rain” and sea salt aerosols in cloudnet for measurements over the Barbados cloud observatory, Atmos. MeasTech., 18, 487–508, https://doi.org/10.5194/amt-18-487-20252025.
  
-**Foth, A.**, Zimmer, J., Lauermann, F.and Kalesse, H.: Evaluation of micro rain radar-based precipitation classification algorithms to discriminate between stratiform and convective precipitation, Atmos. Meas. Tech. Discuss. [preprint], https://doi.org/10.5194/amt-2020-290in review, 2020+ 
 +**2024** 
 + 
 +**Foth, A.**, Lochmann, M., Saavedra Garfias, P., and Kalesse-Los, H.: Determination of low-level temperature profiles from microwave radiometer observations during rain, Atmos. Meas. Tech., 17, 7169–7181, https://doi.org/10.5194/amt-17-7169-2024, 2024. 
 + 
 +Mahecha, M. D., Bastos, A., Bohn, F. J., Eisenhauer, N., Feilhauer, H., Hickler, T., Kalesse-Los, H., Migliavacca, M., Otto, F. E. L., Peng, J., Sippel, S., Tegen, I., Weigelt, A., Wendisch, M., Wirth, C., Al-Halbouni, D., Deneke, H., Doktor, D., Dunker, S., Duveiller, G., Ehrlich, A., **Foth, A.**, García-García, A., Guerra, C. A., Guimarães-Steinicke, C., Hartmann, H., Henning, S., Herrmann, H., Hu, P., Ji, C., Kattenborn, T., Kolleck, N., Kretschmer, M., Kühn, I., Luttkus, M. L., Maahn, M., Mönks, M., Mora, K., Pöhlker, M., Reichstein, M., Rüger, N., Sánchez-Parra, B., Schäfer, M., Stratmann, F., Tesche, M., Wehner, B., Wieneke, S., Winkler, A. J., Wolf, S., Zaehle, S., Zscheischler, J., and Quaas, J.: Biodiversity and climate extremes: known interactions and research gaps, Earth’s Future, 12, e2023EF003963, https://doi.org/10.1029/2023EF003963, 2024. 
 + 
 +Schnitt, S., **Foth, A.**, Kalesse-Los, H., Mech, M., Acquistapace, C., Jansen, F., Löhnert, U., Pospichal, B., Röttenbacher, J., Crewell, S., and Stevens, B.: Ground- and ship-based microwave radiometer measurements during EUREC4A, Earth Syst. Sci. Data, 16, 681–700, https://doi.org/10.5194/essd-16-681-2024, 2024. 
 + 
 +**2023** 
 + 
 +Kalesse-Los, H., Kötsche, A., **Foth, A.**, Röttenbacher, J., Vogl, T., and Witthuhn, J.: The Virga-Sniffer – a new tool to identify precipitation evaporation using ground-based remote-sensing observations, Atmos. Meas. Tech., 16, 1683–1704, https://doi.org/10.5194/amt-16-1683-2023, 2023. 
 + 
 +**2022** 
 + 
 +Schimmel, W., Kalesse-Los, H., Maahn, M., Vogl, T., **Foth, A.**, Garfias, P. S., and Seifert, P.: Identifying cloud droplets beyond lidar attenuation from vertically-pointing cloud radar observations using artificial neural networks, Atmos. Meas. Tech. Discuss. [preprint], https://doi.org/10.5194/amt-2022-149, in review, 2022. 
 + 
 +**Foth, A.**, Bühl, J., Radenz, M., Lehmann, V., and Kalesse-Los, H.: Ein innovativer Ansatz um Temperatur und Feuchteprofile aus Radar-Windprofilermessungen zu bestimmen, DACH2022, https://doi.org/10.5194/dach2022-23, 2022. 
 + 
 +**2021** 
 + 
 +Ansmann, A., Ohneiser, K., Mamouri, R.-E., Knopf, D. A., Veselovskii, I., Baars, H., Engelmann, R., **Foth, A.**, Jimenez, C., Seifert, P., and Barja, B.: Tropospheric and stratospheric wildfire smoke profiling with lidar: Mass, surface area, CCN and INP retrieval, Atmos. Chem. Phys., https://doi.org/10.5194/acp-21-9779-2021, 2021.  
 + 
 +**Foth, A.**, Zimmer, J., Lauermann, F. and Kalesse-Los, H.: Evaluation of micro rain radar-based precipitation classification algorithms to discriminate between stratiform and convective precipitation, Atmos. Meas. Tech., https://doi.org/10.5194/amt-14-4565-20212021 
 + 
 + 
 +**2020** 
  
 Ohneiser, K., Ansmann, A., Baars, H., Seifert, P., Barja, B., Jimenez, C., Radenz, M., Teisseire, A., Floutsi, A., Haarig, M., **Foth, A.**, Chudnovsky, A., Engelmann, R., Zamorano, F., Bühl, J., and Wandinger, U.: Smoke of extreme Australian bushfires observed in the stratosphere over Punta Arenas, Chile, in January 2020: optical thickness, lidar ratios, and depolarization ratios at 355 and 532 nm, Atmos. Chem. Phys., 20, 8003–8015, https://doi.org/10.5194/acp-20-8003-2020, 2020.  Ohneiser, K., Ansmann, A., Baars, H., Seifert, P., Barja, B., Jimenez, C., Radenz, M., Teisseire, A., Floutsi, A., Haarig, M., **Foth, A.**, Chudnovsky, A., Engelmann, R., Zamorano, F., Bühl, J., and Wandinger, U.: Smoke of extreme Australian bushfires observed in the stratosphere over Punta Arenas, Chile, in January 2020: optical thickness, lidar ratios, and depolarization ratios at 355 and 532 nm, Atmos. Chem. Phys., 20, 8003–8015, https://doi.org/10.5194/acp-20-8003-2020, 2020. 
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  • Last modified: 2021/03/08 10:51
  • by Andreas Foth