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projects:para [2024/10/15 13:08] ayushprojects:para [2026/02/23 17:39] (current) ayush
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 **References**\\ **References**\\
-    * Bukovčić, P., Ryzhkov, A., & Zrnić, D., 2020: Polarimetric relations for snow estimation—Radar verification. Journal of Applied Meteorology and Climatology, 59(5), 991-1009. \\ +    * Bukovčić, P., Ryzhkov, A., & Zrnić, D., 2020: Polarimetric relations for snow estimation—Radar verification. Journal of Applied Meteorology and Climatology, 59(5), 991-1009. 
- +    * Carlin, J., Reeves, H., & Ryzhkov, A., 2021: Polarimetric Observations and Simulations of Sublimating Snow: Implications for Nowcasting. Journal of Applied Meteorology and Climatology.  
-    * Carlin, J., Reeves, H., & Ryzhkov, A., 2021: Polarimetric Observations and Simulations of Sublimating Snow: Implications for Nowcasting. Journal of Applied Meteorology and Climatology. \\ +    * Delanoë, J., and R. J. Hogan, 2010: Combined CloudSat-CALIPSO-MODIS retrievals of the properties of ice clouds, J. Geophys. Res., 115, D00H29, doi:10.1029/2009JD012346.  
- +    * Giorgetta, M.A., R. Brokopf, T. Crueger, M. Esch, S. Fiedler, J. Helmert, C. Hohenegger, L. Kornblueh, M. Koehler, E. Manzini, T. Mauritsen, C. Nam, S. Rast, C. Reick, D. Reinert, M. Sakradzija, H. Schmidt, R. Schnur, L. Silvers, H. Wan, G. Zaengl, and B. Stevens, 2018: ICON-A, the atmospheric component of the ICON Earth System Model. Part I: Model Description, J. Adv. Model. Earth Syst., 10, 1613– 1637, doi:10.1029/2017MS001242.  
-    * Delanoë, J., and R. J. Hogan, 2010: Combined CloudSat-CALIPSO-MODIS retrievals of the properties of ice clouds, J. Geophys. Res., 115, D00H29, doi:10.1029/2009JD012346. \\ +    * Kneifel, S., Kollias, P., Battaglia, A., Leinonen, J., Maahn, M., Kalesse, H., & Tridon, F., 2016: First observations of triple‐frequency radar Doppler spectra in snowfall: Interpretation and applications. Geophysical Research Letters, 43(5), 2225-2233.  
- +    * Kneifel, S., von Lerber, A., Tiira, J., Moisseev, D., Kollias, P., & Leinonen, J., 2015: Observed relations between snowfall microphysics and triple‐frequency radar measurements. Journal of Geophysical Research: Atmospheres, 120(12), 6034-6055. 
-    * Giorgetta, M.A., R. Brokopf, T. Crueger, M. Esch, S. Fiedler, J. Helmert, C. Hohenegger, L. Kornblueh, M. Koehler, E. Manzini, T. Mauritsen, C. Nam, S. Rast, C. Reick, D. Reinert, M. Sakradzija, H. Schmidt, R. Schnur, L. Silvers, H. Wan, G. Zaengl, and B. Stevens, 2018: ICON-A, the atmospheric component of the ICON Earth System Model. Part I: Model Description, J. Adv. Model. Earth Syst., 10, 1613– 1637, doi:10.1029/2017MS001242. \\ +    * Mróz, K., Battaglia, A., Kneifel, S., von Terzi, L., Karrer, M., & Ori, D., 2021: Linking rain into ice microphysics across the melting layer in stratiform rain: a closure study. Atmospheric Measurement Techniques, 14(1), 511-529.
- +
-    * Kneifel, S., Kollias, P., Battaglia, A., Leinonen, J., Maahn, M., Kalesse, H., & Tridon, F., 2016: First observations of triple‐frequency radar Doppler spectra in snowfall: Interpretation and applications. Geophysical Research Letters, 43(5), 2225-2233. \\ +
- +
-    * Kneifel, S., von Lerber, A., Tiira, J., Moisseev, D., Kollias, P., & Leinonen, J., 2015: Observed relations between snowfall microphysics and triple‐frequency radar measurements. Journal of Geophysical Research: Atmospheres, 120(12), 6034-6055.\\ +
- +
-    * Mróz, K., Battaglia, A., Kneifel, S., von Terzi, L., Karrer, M., & Ori, D., 2021: Linking rain into ice microphysics across the melting layer in stratiform rain: a closure study. Atmospheric Measurement Techniques, 14(1), 511-529.\\+
  
  
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 **References** \\ **References** \\
-    * Delanoë, J., and Hogan R. J, 2010: Combined CloudSat-CALIPSO-MODIS retrievals of the properties of ice clouds, J. Geophys. Res., 115, D00H29, doi:10.1029/2009JD012346. \\ +    * Delanoë, J., and Hogan R. J, 2010: Combined CloudSat-CALIPSO-MODIS retrievals of the properties of ice clouds, J. Geophys. Res., 115, D00H29, doi:10.1029/2009JD012346. 
- +    * Marshall, J. S., and Palmer, W., 1948: The distribution of raindrops with size. Journal of Meteorology, 5, 165–166. 
-    * Marshall, J. S., and Palmer, W., 1948: The distribution of raindrops with size. Journal of Meteorology, 5, 165–166.\\ +    * Mewes, D., 2016: Stochastic Parameterization of Precipitation in the ECHAM6 General Circulation Model, Master‘s thesis, University of Leipzig, 29 pp., available at [[http://research.uni-leipzig.de/climate/mewes_daniel__masterarbeit__2016.pdf, 2016|Mewes Daniel Masterarbeit 2016]] 
- +    * Murphy, A., Ryzhkov, A., Zhang, P., McFarquhar, G., Wu, W., & Stechman, D., 2018: A polarimetric and microphysical analysis of the stratiform rain region of MCSs. In Annual American Meteorological Society Meeting, January 8–11, Austin, TX. 
-    * Mewes, D., 2016: Stochastic Parameterization of Precipitation in the ECHAM6 General Circulation Model, Master‘s thesis, University of Leipzig, 29 pp., available at [[http://research.uni-leipzig.de/climate/mewes_daniel__masterarbeit__2016.pdf, 2016|Mewes Daniel Masterarbeit 2016]]\\ +    * Quaas, J.,2012: Evaluating the "critical relative humidity" as a measure of subgrid-scale variability of humidity in general circulation model cloud cover parameterizations using satellite data. J. Geophys. Res., 117, D09208, doi:10.1029/2012JD017495. 
- +    * Sundqvist, H., et al., 1989: Condensation and cloud parameterization studies with a mesoscale numerical weather prediction model, Mon. Weather Rev., 117, 1641–1657. 
-    * Murphy, A., Ryzhkov, A., Zhang, P., McFarquhar, G., Wu, W., & Stechman, D., 2018: A polarimetric and microphysical analysis of the stratiform rain region of MCSs. In Annual American Meteorological Society Meeting, January 8–11, Austin, TX.\\ +    * Ulbrich, C.,1983: Natural variations in the analytical form of the raindrop size distribution. Journal of Climate and Applied Meteorology, 22, 1764–1775.
- +
-    * Quaas, J.,2012: Evaluating the "critical relative humidity" as a measure of subgrid-scale variability of humidity in general circulation model cloud cover parameterizations using satellite data. J. Geophys. Res., 117, D09208, doi:10.1029/2012JD017495.\\ +
- +
-    * Sundqvist, H., et al., 1989: Condensation and cloud parameterization studies with a mesoscale numerical weather prediction model, Mon. Weather Rev., 117, 1641–1657.\\ +
- +
-    * Ulbrich, C.,1983: Natural variations in the analytical form of the raindrop size distribution. Journal of Climate and Applied Meteorology, 22, 1764–1775.\\ +
     * Weber, T., and Quaas J., 2012: Incorporating the subgrid-scale variability of clouds in the autoconver¬sion parameterization. J. Adv. Model. Earth Syst., 4, M11003, doi:10.1029/2012MS000156.\\     * Weber, T., and Quaas J., 2012: Incorporating the subgrid-scale variability of clouds in the autoconver¬sion parameterization. J. Adv. Model. Earth Syst., 4, M11003, doi:10.1029/2012MS000156.\\
  
  • projects/para.txt
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