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Egger, J., and K. P. Hoinka|2007|Stratosphere - troposphere exchange: a zonal mean perspective of angular momentum|Dynamics of Atmospheres and Oceans|43|100-121|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2008|Montain torque events at the Tibetan Plateau|Monthly Weather Review|136|389-404|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2008|Mountain torques and synoptic systems in the Mediterranean|Quarterly Journal of the Royal Meteorological Society|134|1067-1083|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2008|The angular momentum budget of the Transformed Eulerian Mean equations|Journal of the Atmospheric Sciences|65|3305–3314|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2008|Topographic instability: tests|Journal of the Atmospheric Sciences|65|670-680|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2009|Isotropic pressure and mountain torques|Mon. Wea. Rev.|submitted|137,3047-3054|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2010|Potential temperature inversion: an alternative to potential vorticity inversion|Journal of the Atmospheric Sciences|||Theorie|nein|ja|
Egger, J., and K. P. Hoinka|2010|Regional contributions to isentropic pressure torques|Monthly Weather Review||138.4175-4185|Theorie|ja|ja|
Egger, J., and K. P. Hoinka|2010|Stochastic forcing of potential vorticity: observations|Journal of the Atmospheric Sciences|||Theorie|nein|ja|
Egger, J., and K. Weickmann|2007|Latitude - high structure of the atmospheric angular momentum cycle associated wuth the Madden-Julian oscillation|Monthly Weather Review|135|1564-1575|Theorie|ja|ja|
Egger, J., and K.-P. Hoinka|2007|Mountain torque events in the Mediterranean|Adv. Geophys.|12|1-4|Theorie|ja|ja|
Egger, J., and R. Kühnel|2010|Orographic gravity waves induced by variable mean winds: observations at Hofsjokull|Meteorologische Zeitschrift|19(1)|101-113|Theorie|ja|ja|
Egger, J., and T. Jónsson|2002|Dynamic models for Icelandic meteorological data sets|Tellus|54A|1-13|Theorie|ja|ja|
Egger, J.|1998|Lateral momentum transport by orographic gravity waves|Journal of the Atmospheric Sciences|55|2623-2631|Theorie|ja|ja|
Egger, J.|1998|Mountain torque and Rossby wave radiation|Journal of the Atmospheric Sciences|55|2937-2945|Theorie|ja|ja|
Egger, J.|1999|Inertial oscillations revisited|Journal of the Atmospheric Sciences|56|2951-2954|Theorie|ja|ja|
Egger, J.|1999|Internal fluctuations in an ocean-atmosphere box model with sea-ice|Climate Dynamics|15|595-604|Theorie|ja|ja|
Egger, J.|1999|Numerical generation of entropies|Monthly Weather Review|127|2211-2216|Theorie|ja|ja|
Egger, J.|1999|POPs and MOPs|Climate Dynamics|15|561-568|Theorie|ja|ja|
Egger, J.|1999|Vom Tornado zum Ozonloch|Oldenbourg|||Theorie|ja|ja|
Egger, J.|2000|On the energy source for atmospherically induced angular momentum changes of the earth|Meteorologische Zeitschrift|9|377-379|Theorie|ja|ja|
Egger, J.|2001|Angular momentum of beta-plane flows|Journal of the Atmospheric Sciences|58|2502-2508|Theorie|ja|ja|
Egger, J.|2001|Constrained stochastic forcing|Progress in Probability|49|299-308|Theorie|ja|ja|
Egger, J.|2001|Master equations for climatic parameter sets|Climate Dynamics|18|169-177|Theorie|ja|ja|
Egger, J.|2001|Pop-analysis and sampling interval|Meteorologische Zeitschrift|10|351-355|Theorie|ja|ja|
Egger, J.|2002|A simple model of the global angular momentum budget|Meteorologische Zeitschrift|11|129-133|Theorie|ja|ja|
Egger, J.|2002|Hump pattern generation on ski slopes|Physica D|165|127-136|Theorie|ja|ja|
Egger, J.|2002|Master equations for Himalayan Valley winds. Stochastics and dynamics|World Sci. Publ. Comp.|Vol. 2|381-394|Theorie|ja|ja|
Egger, J.|2003|A modified quasigeostrophic equation for barotropic mean flow over topography|Meteorologische Zeitschrift|12|43-46|Theorie|ja|ja|
Egger, J.|2003|A new look at  inertial motion on the sphere and the earth |Meteorologische Zeitschrift|12|305-307|Theorie|ja|ja|
Egger, J.|2003|Advection equation with oscillating forcing: Numerical aspects|Monthly Weather Review|131|984-989|Theorie|ja|ja|
Egger, J.|2003|Equatorial global angular momentum: Wind and mass terms|Meteorologische Zeitschrift|12|235-237|Theorie|ja|ja|
Egger, J.|2003|Gravity wave drag and global angular momentum: geostrophic adjustment processes|Tellus|55A|419-425|Theorie|ja|ja|
Egger, J.|2003|Momentum Budget|Elsevier Science Ltd.||855-860|Theorie|ja|ja|
Egger, J.|2003|Mountain torques in quasigeostrophic theory|Meteorologische Zeitschrift|12|301-304|Theorie|ja|ja|
Egger, J.|2003|Valley Winds|Elsevier Science Ltd.||2481-2490|Theorie|ja|ja|
Egger, J.|2004|Linear advection equation with upstream schemes: analytic solution|Meteorologische Zeitschrift|13|473 - 476|Theorie|ja|ja|
Egger, J.|2004|Two dimensional shallow water flow through a valley|Meteorologische Zeitschrift|13|39-47|Theorie|ja|ja|
Egger, J.|2005|A stochastic model for the angular momentum budget of latitude belts|Journal of the Atmospheric Sciences|accepted||Theorie|ja|ja|
Egger, J.|2005|Explicit solutions to stochastic angular momentum equations|Meteorologische Zeitschrift|14|671-676|Theorie|ja|ja|
Egger, J.|2006|Barotropic instability at minimal resolution|Monthly Weather Review|134|2943-2950|Theorie|ja|ja|
Egger, J.|2006|The moisture torque|Meteorologische Zeitschrift|15(6)|671-673|Theorie|ja|ja|
Egger, J.|2007|Balanced mass prediction and piecewise potential vorticity inversion|Tellus|submitted||Theorie|ja|ja|
Egger, J.|2007|Counterpropagating Rossby waves and barotropic instability|Meteorologische Zeitschrift|16|581-585|Theorie|ja|ja|
Egger, J.|2007|Empirical master equations|Meteorology and Atmospheric Physics|16|139-147|Theorie|ja|ja|
Egger, J.|2008|Reply|Journal of the Atmospheric Sciences|65|3009|Theorie|ja|ja|
Egger, J.|2008|Sensitivity of POPs to data destribution in space|Meteorologische Zeitschrift|17|673-677|Theorie|ja|ja|
Egger, J.|2009|Baroclinic instability in the Eady model: interpretations|Journal of the Atmospheric Sciences|66|1856-1859|Theorie|ja|ja|
Egger, J.|2009|Baroclinic instability in the two-layer model: interpretations|Meteorologische Zeitschrift|18|559-566|Theorie|ja|ja|
Egger, J.|2009|Piecewise potential vorticity inversion and vortex interaction|Journal of the Atmospheric Sciences|66|3208-3216|Theorie|ja|ja|
Egger, J.|2009|Time varying flow over mountains: temperature perturbation  at the surface|Meteorologische Zeitschrift|18|101-106|Theorie|ja|ja|
Egger, J.|2010|Motion on a beta-planet|Quarterly Journal of the Royal Meteorological Society|136|1851–1854|Theorie|ja|ja|
Egger, J.|2011|Mountain forces and the atmospheric energy budget|J. Atmos. Sciences|68|2698-2694|Theorie|ja|ja|
Egger, J.|2012|Comments on 'The usefulness of piecewise potential vorticity inversion'|J. Atmos. Sci.|68||Theorie|ja|ja|
Egger, J.||||||Theorie||ja|
Egger, J.||||||Theorie||ja|
Egger, Joseph, Klaus-Peter Hoika|2019|Hydrostatic Vertical Velocity and incompressibility in the Northern Hemisphere|Quart.J.Roy.Met.Soc|145||Theorie|||
Egger,J. and K.P.Hoinka|2017|The vertical component of the grostrophie wind|Q.J.R Meteorol. Soc.||143, 1704-1713|Theorie|ja|ja|
Ehrlich, A., Crewell, S., Herber, A., Klingebiel, M., Lüpkes, C., Mech, M., Becker, S., Borrmann, S., Bozem, H., Buschmann, M., Clemen, H.-C., De La Torre Castro, E., Dorff, H., Dupuy, R., Eppers, O., Ewald, F., George, G., Giez, A., Grawe, S., Gourbeyre, C., Hartmann, J., Jäkel, E., Joppe, P., Jourdan, O., Jurányi, Z., Kirbus, B., Lucke, J., Luebke, A. E., Maahn, M., Maherndl, N., Mallaun, C., Mayer, J., Mertes, S., Mioche, G., Moser, M., Müller, H., Pörtge, V., Risse, N., Roberts, G., Rosenburg, S., Röttenbacher, J., Schäfer, M., Schaefer, J., Schäfler, A., Schirmacher, I., Schneider, J., Schnitt, S., Stratmann, F., Tatzelt, C., Voigt, C., Walbröl, A., Weber, A., Wetzel, B., Wirth, M., and Wendisch, M.|2025|A comprehensive in-situ and remote sensing data set collected during the HALO–(AC)3 aircraft campaign|Earth Syst. Sci. Data|17|1295–1328, doi:10.5194/essd-17-1295-2025|Strahlung|ja|ja|
Ehrlich, A., M. Wendisch, E. Bierwirth, J.-F. Gayet, G. Mioche, A. Lampert, and B. Mayer|2009|Evidence of ice crystals at cloud top of Arctic boundary-layer mixed-phase clouds derived from airborne remote sensing|Atmospheric Chemistry and Physics|9|9401-9416|Strahlung|ja|ja|
Eichinger, R., S.Dietmüller, H. Garny, P. Sacha, T. Birner, H. Böhnisch, G. Pitari, D. Visioni, A. Stenke, E. Rozanov, L. Revell, D. A. Plummer, P. Jöckel, L. Oman, M. Deushi, D. E. Kinnison, R. Garcia, O. Morgenstern, G. Zeng, K. A. Stone, R. Schofield|2019|The influence of mixing on stratospheric circulation changes in the 21st century|Atmos. Chem. Phys.|19|921–940, https://doi.org/10.5194/acp-19-921-2019|Theorie|ja|ja|
Emde, C. and B. Mayer|2018|Errors induced by the neglect of polarization in radiance calculations for three-dimensional cloudy atmospheres|J. Quant. Spectrosc. Radiat. Transfer|218|151-160, <a href="https://authors.elsevier.com/a/1XTIQ564SFsqX">(link)</a>|Strahlung|ja|ja|
Emde, C.,  R. Buras, and B. Mayer|2011|ALIS: An efficient method to compute high spectral resolution polarized solar radiances using the Monte Carlo approach|J. Quant. Spectrosc. Radiat. Transfer|112(10)|1622-1631|Strahlung|ja|ja|
Emde, C., H. Yu, A. Kylling, M. van Roozendael, K. Stebel, B. Veihelmann, and B. Mayer|2022|Impact of 3D cloud structures on the atmospheric trace gas products from UV-Vis sounders - Part 1: Synthetic dataset for validation of trace gas retrieval algorithms|AMT|15(5)|1587-1608|Strahlung|ja|ja|
Emde, C., R. Buras, B. Mayer, and M. Blumthaler|2010|The impact of aerosols on polarized sky radiance: model development, validation, and applications|Atmospheric Chemistry and Physics|10|383-396|Strahlung|ja|ja|
Emde, C., R. Buras-Schnell, A. Kylling, B. Mayer, J. Gasteiger, U. Hamann, J. Kylling, B. Richter, C. Pause, T. Dowling, L. Bugliaro|2016|The libradtran software package for radiative transfer calculations (version 2.0.1)|Geoscientific Model Development|9(5)|1647-1672|Strahlung|ja|ja|
Emde, C., R. Buras-Schnell, M. Sterzik, and S. Bagnulo|2017|Influence of aerosols, clouds, and sunglint on polarization spectra of Earthshine|Astron. Astrophys.|605(A2)|(<a href=https://www.aanda.org/articles/aa/abs/2017/09/aa29948-16/aa29948-16.html>link</a>)|Strahlung|ja|ja|
Emde, C., V. Barlakas, C. Cornet, F. Evans, S. Korkin, Y. Ota, L. C.-Labonnote, A. Lyapustin, A. Macke, B. Mayer, and M. Wendisch|2015| IPRT polarized radiative transfer model intercomparison project – phase A|J. Quant. Spectrosc. Radiat. Transfer|164(0)|8-36|Strahlung|ja|ja|
Emde, C., V. Barlakas, C. Cornet, F. Evans, Z. Wang, L. C.-Labonotte, A. Macke, B. Mayer, and M. Wendisch|2018| IPRT polarized radiative transfer model intercomparison project – three-dimensional test cases (phase B)|J. Quant. Spectrosc. Radiat. Transfer|209|19-44, <a href="https://www.sciencedirect.com/science/article/pii/S0022407317308981">(link)</a>|Strahlung|ja|ja|
Emde, C., V. Pörtge, M. Manev, B. Mayer|2024|Retrieval of cloud fraction and optical thickness of liquid water clouds over the ocean from multi-angle polarization observations|Atmos. Meas. Tech.|17(23)|DOI:10.5194/amt-17-6769-2024|Strahlung|ja|ja|
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Ewald F., T. Kölling, A. Baumgartner, T. Zinner, and B. Mayer|2016|Design and characterization of specMACS, a multipurpose hyperspectral cloud and sky imager|Atmos. Meas. Tech.|9|2015-2042, doi:10.5194/amt-9-2015-2016 (<a href=http://www.atmos-meas-tech.net/9/2015/2016/ target='_blank'>link</a>)|Strahlung|ja|ja|
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Ewald, F., L. Bugliaro, H. Mannstein, B. Mayer|2013|An improved cirrus detection algorithm MeCiDA2 for SEVIRI and its evaluation with MODIS|Atmos. Meas. Tech.|6|309 - 322|Strahlung|ja|ja|
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Keil, C.|2000|Numerische Simulation von Starkniederschlagsereignissen mit mesoskaligen Wettervorhersagemodellen. Überprüfung mit Radar-Daten und Diagnose der atmosphärischen Wasserbilanz||||Theorie|ja|nein|
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Kilroy G, Montgomery MT and Smith RK|2017|The role of boundary-layer friction on tropical cyclogenesis and intensification|Quart. J. Roy. Meteor. Soc.|143|2524-2536|MesoMikro|ja|ja|
Kilroy G, Smith RK and Montgomery MT|2016|Why do model tropical cyclones grow progressively in size and decay in intensity after reaching maturity?|J. Atmos. Sci.|73|487-503|MesoMikro|ja|ja|
Kilroy G, Smith RK and Montgomery MT|2017|A unified view of tropical cyclogenesis and intensification|Quart. J. Roy. Meteor. Soc.|143|450-462|MesoMikro|ja|ja|
Kilroy G, Smith RK and Montgomery MT|2017|Tropical low formation and intensification over land as seen in ECMWF analyses|Quart. J. Roy. Meteor. Soc.|143|772-784|MesoMikro|ja|ja|
Kilroy G, Smith RK and Montgomery MT|2018|The role of heating and cooling associated with ice processes on tropical cyclogenesis and intensification|Quart. J. Roy. Meteor. Soc.|144|99-114|MesoMikro|ja|ja|
Kilroy G, Smith RK and Montgomery MT|2020|An idealized numerical study of tropical cyclogenesis and evolution at the Equator|Quart. J. Roy. Meteor. Soc.|146|685-699|MesoMikro|ja|ja|
Kilroy G, Smith RK, Montgomery MT, Lynch B and Earl-Spurr C|2016|A case study of a monsoon low that formed over the sea and intensified over land as seen in the ECMWF analyses|Quart. J. Roy. Meteor. Soc.|142|2244-2255|MesoMikro|ja|ja|
Kilroy G|2021|Evolution of Convective Characteristics During Tropical Cyclogenesis.|Quart. J. Roy. Meteor. Soc.|147|2103-2123|MesoMikro|ja|ja|
Kilroy, G. and R. K. Smith|2013| A numerical study of rotating convection during tropical cyclogenesis.|Quart. J. Roy Met. Soc.|139|1255-1269|MesoMikro|ja|ja|
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Kins, L., J. Reuder, and H. Escher-Vetter|1998|PHOTOGLEX 1994: Investigations on photooxidants and related species in an Alpine environment|Proceedings of the 25th International Conference on Alpine Meteorology ICAM 1998, Turino, Italy|ed. by Direzione dei servizi technici di prevenzione settore meteoidrografico e reti di monitoraggio, Regione Piemonte|188-192|Strahlung|ja|ja|
Klinger, C. and B. Mayer|2014|Three-dimensional Monte Carlo calculation of atmospheric thermal heating rates|Journal of Quantitative Spectroscopy and Radiative Transfer|Volume 144|Pages 123-136, ISSN 0022-4073, <a href= http://dx.doi.org/10.1016/j.jqsrt.2014.04.009 target='_blank'>doi: http://dx.doi.org/10.1016/j.jqsrt.2014.04.009 </a>|Strahlung|ja|ja|
Klinger, C. and B. Mayer|2015| The Neighboring Column Approximation (NCA) – A fast approach for the calculation of 3D thermal heating rates in cloud resolving models|Journal of Quantitative Spectroscopy and Radiative Transfer|Volume 168, January 2016|Pages 17-28, ISSN 0022-4073, <a href= http://dx.doi.org/10.1016/j.jqsrt.2015.08.020 target='_blank'>doi: http://dx.doi.org/10.1016/j.jqsrt.2015.08.020 </a>|Strahlung|ja|ja|
Klinger, C., & Mayer, B.|2020|Neighboring column approximation—An improved 3d thermal radiative transfer approximation for non‐rectangular grids|Journal of Advances in Modeling Earth Systems| 12|e2019MS001843. https://doi.org/10.1029/2019MS001843|Strahlung|ja|ja|
Klinger, C., Feingold, G., and Yamaguchi, T.|2019|Cloud droplet growth in shallow cumulus clouds considering 1-D and 3-D thermal radiative effects|Atmos. Chem. Phys.|19|6295-6313, https://doi.org/10.5194/acp-19-6295-2019|Strahlung|ja|ja|
Klinger, C., Mayer, B., Jakub, F., Zinner, T., Park, S.-B., and Gentine, P|2017|Effects of 3-D thermal radiation on the development of a shallow cumulus cloud field| Atmos. Chem. Phys.,  doi:10.5194/acp-17-5477-2017|17|5477-5500|Strahlung|ja|ja|
Kneifel, S., B. Pospichal, L. von Terzi, T. Zinner, M. Puh, M. Hagen, B. Mayer, U. Löhnert, S. Crewell|2022|Multi-year cloud and precipitation statistics observed with remote sensors at the high-altitude Environmental Research Station Schneefernerhaus in the German Alps|Met.Zet.|31(1)|p. 69 - 86, DOI: 10.1127/metz/2021/1099, <a href=https://www.schweizerbart.de/papers/metz/detail/prepub/100720/Multi_year_cloud_and_precipitation_statistics_obse?af=crossref target='_blank'> (link)</a>|Strahlung|ja|ja|
Knote, C., A. Hodzic, J.L. Jimenez|2015|The effect of dry and wet deposition of condensable vapors on secondary organic aerosols concentrations over the continental US|Atmos. Chem. Phys.|15|1-18|Strahlung|ja|ja|
Knote, C., J. Barré, and M. Eckl|2018|BEATBOX v1.0: Background Error Analysis Testbed with Box Models|Geosci. Model Dev.|11(2)|561–573|Strahlung|ja|ja|
Kober, K. and A. Tafferner |2009|Tracking and nowcasting of convective cells using remote sensing data from radar and satellite|Met. Zeitschrift|1|75-84|Theorie|ja|ja|
Kober, K., G. C. Craig, C. Keil |2014|Aspects of short-term probabilistic blending in different weather regimes|Q. J. R. Meteorol. Soc.|140, 1179-1188, DOI:10.1002/qj.2220|<a href=http://onlinelibrary.wiley.com/doi/10.1002/qj.2220/abstract target='_blank'> (link)</a>|Theorie|ja|ja|
Kober, K., G. C. Craig, C. Keil, A. Dörnbrack|2012|Blending a probabilistic nowcasting method with a high resolution numerical weather prediction ensemble for convective precipitation forecasts|Q.J.R. Meteorol. Soc.|DOI:10.1002/qj.939||Theorie|ja|ja|
Kober, K., G.C.Craig|2016|Physically-based stochastic perturbations (PSP) in the boundary layer to represent uncertainty in convective initiation |J. Atmos. Sci.|73|2893-2911, DOI:10.1175/JAS-D-15-0144.1.|Theorie|ja|ja|
Koch, R., M. Ehrendorfer, and M. Weissmann|2007|Key analysis errors and airborne wind lidar observations|Meteorol. Zeitschr.|16|711-723. <a href=http://www.schweizerbart.de/papers/metz/detail/16/56110/Key_analysis_errors_and_airborne_wind_lidar_observ target='_blank'> (link)</a>|Theorie|ja|nein|
Koepke P., M. Placzek, H. Staiger and P. Winkler|2007|Solare UV-Strahlung und ihre Wirkung auf den Menschen|Promet|33 (3/4)|95-108|Strahlung|ja|ja|
Koepke, P, K.T. Kriebel, and B. Dietrich|1986|Uncertainty of satellite derived clear sky shortwave radiation budget|H. Quenzel and E. Raschke (Eds.)|Satellite measurements of the radiation budget of the Earth, BMFT-FB-W 86-011|111-116|Strahlung|nein|ja|
Koepke, P, M. Hess, S. Bretl, and M. Seefeldner|2009|UV radiance on the Human Skin: Effects of orientation and Sky Obstructions|T. Nakajima and M.A. Yamasoe (Eds.) Current Problems of Atmospheric Radiation (IRS 2008) American Inst Physics Conf. Proceesings, Melville, New York||53-56|Strahlung|nein|ja|
Koepke, P, and M. Hess|1986|Nonspherical particles and their influence on the scattering function of tropospheric aerosols|J. Aerosol Sci.|17 (3)|254-257|Strahlung|ja|ja|
Koepke, P, and M. Hess|1988|Scattering functions of tropospheric aerosols: The effect of nonspherical particles|Appl. Opt.|27 (12)|2422-2430|Strahlung|ja|ja|
Koepke, P., A. Biais, D. Balis, M. Buchwitz, H. De Backer, X. de Cabo, P. Eckert, P. Eriksen, D. Gillotay, A. Heikkilä, T. Koskela, B. Lapeta, Z. Litynska, J. Lorente, B. Mayer, A. Renaud, A. Ruggaber, G. Schauberger, G. Seckmeyer, P. Seifert, A. Schmalwieser, H. Schwander, K. Vanicek, and M. Weber|1998|Comparison of models used for UV index calculations|Photochem., Photobiol.|67(6)|657-662|Strahlung|ja|ja|
Koepke, P., A. D. Anwender, M. Mech, A. Oppenrieder, J. Reuder, A. Ruggaber, M. Schreier, H. Schwander, and J. Schween|2006|Actual state of the UV radiation transfer model package STAR|IRS 2004: Current Problems in Atmosph. Radiation|H. Fischer and B. J. Sohn (Eds.), Deepak Publ. 2006, Hampton, Virg.|71-74, ISBN 0-937194-48-4|Strahlung|ja|ja|
Koepke, P., A. Oppenrieder, H. Schwander, A. Ruggaber, A. Kaifel, and M. Steinmetz|2001|Application of neural networks in radiative transfer models|IRS 2000: Current Problems in Atmosph. Radiation|W.L. Smith a. Y.M.Timofeyev (Eds.), Deepak Publ. 2001,  Hampton, Virg.|311-314, ISBN 0-937194-43-3|Strahlung|ja|ja|
Koepke, P., A. Ruggaber, H. Schwander, E. Tamm, and E. Thomalla|1997|Aspekte der Bewertung biologisch wirksamer UV-Strahlung|Ann. Meteorolog., DWD, Offenbach|33(3)|114-120|Strahlung|nein|ja|
Koepke, P., A. W. Schmalwieser, H. De Backer, A. Bais, A. Curylo,  K. Eerme, U. Feister, B. Johnsen, A. Kazantzidis, J. Krzyscin, A. Lindfors, J. A. Olseth, P. den Outer, A. Pribullova, H. Slaper, H. Staiger, J. Verdebout, L. Vuilleumier, and P. Weihs|2007|Comparison of algorithms and input data for modelling solar ultraviolet radiation in the past|Geophysical Research Abstracts|9|08259|Strahlung|ja|ja|
Koepke, P., G. Hänel, M. Hess, R. Meerkötter, D. Rabus, E. Tamm, E. Thomallia, und B. Vogel|1989|Fernerkundung der Bodenalbedo und Bestimmung optischer Aerosoleigenschaften|R. Roth (Hrsg) Experimentbericht HIBE'89||12 pgs|Strahlung|nein|ja|
Koepke, P., H. De Backer, A. Bais, A. Curylo, K. Eerme, U. Feister, B. Johnsen, J. Junk, A. Kazantzidis, J. Krzyscin, A. Lindfors, J.A. Olseth, P. den Outer, A. Pribullova, A. Schmalwieser, H. Slaper, H. Staiger, J. Verdebout, L. Vuilleumier,. P. Weihs|2008|Modelling solar UV radiation in the past: Comparison of algorithms and input data|COST Action 726|Final Report,COST Office, Brussels|94|Strahlung|nein|ja|
Koepke, P., H. De Backer, A. Biais, A. Curylo, K. Eerme, U. Feister, B. Johnsen, J. Junk, A. Kazantzidis, J. Krzyscin, A. Lindfors, J. A. Olseth, P. den Outer, A. Pribullova, A.W. Schmalwieser, H. Slaper, H. Staiger, J. Verdebout, L. Vuilleumier, and P. Weihs|2006|Modeling solar UV radiation in the past: comparison of algorithms and input data|Proc. of SPIUE reprint|SPIE paper 6362|636215-1 to 636215.11|Strahlung|nein|ja|
Koepke, P., H. De Backer, P. Eriksen, U. Feister, D. Grifoni, T. Koskela, A. Lehmann, Z. Lityminska, A. Schmalwieser, H. Staiger, and K. Vanicek|2001|An overview of the results from the comparison of UV-index forecasted and measured at all atmospheric conditions including clouds|IRS 2000: Current Problems in Atmosph. Radiation|W.L. Smith a. Y.M.Timofeyev (Eds.), Deepak Publ. 2001, Hampton, Virg.|1181-1184|Strahlung|ja|ja|
Koepke, P., H. Quenzel and R. Sizmann|1986|Yearly Yield of Solar CRS-Process Heat and Temperature of Reaction|Bericht zum DFVLR-Kontrakt 5-378-4326 Univ. München, Dez 1986|||MesoMikro|ja|ja|
Koepke, P., H. Quenzel and R. Sizmann|1987|Yearly Yield of Solar CRS-Process Heat and Temperature of Reaction|M. Becker, ed: Solar Thermal Energy Utilization Vol. 1: |General Investigations on Energy Availability. Springer Verlag, Berlin|3-96|MesoMikro|ja|ja|
Koepke, P., H. Quenzel, and R. Sizmann|1987|Yearly field of solar CRS-Process Heat and Temperature Reaction|M. Becker (Ed.) Solra Thermal Energy Utilization|Vol. 1: General Investigations of Energy Availability. Springer Verlag, Berlin|3-96|MesoMikro|nein|ja|
Koepke, P., H. Quenzel|1981|Turbidity of the Atmosphere Determined from Satellite: Calculation of Optimum Wavelength|J. Geophys. Res.|86|9801-9805|MesoMikro|ja|ja|
Koepke, P., J. Gasteiger, and M. Hess|2015|Technical Note: Optical properties of desert aerosol with non-spherical mineral particles: data incorporated to OPAC|Atmos. Chem. Phys.|15|5947-5956, <a href="http://www.atmos-chem-phys.net/15/5947/2015/acp-15-5947-2015.html" target='_blank'>doi:10.5194/acp-15-5947-2015</a>|Strahlung|ja|ja|
Koepke, P., J. Reuder, and H. Schwander|2000|Aerosol effects on UV radiation|In: CP534, Nucleation and Atm. Aerosols|15 Int Conf.; Hale, B.N. and M. Kumala (Eds) Am Inst Physics|581-584|Strahlung|nein|ja|
Koepke, P., J. Reuder, and H. Schwander|2002|Solar UV radiation and its variability due to the atmospheric components|Recent Res. Devel. Photochem. Photobiol.|6|Transworld Research Network, Trivandum, Kerala, India, ISBN: 81-7895-053-7,11-34|Strahlung|nein|ja|
Koepke, P., J. Reuder, and J. Schween|2001|Spectral variation of the solar radiation during an eclipse|Meteor. Z.|10(3)|179-186|Strahlung|ja|ja|
Koepke, P., J. Reuder, and J. Schween|2004|UV-Strahlung - gestern, heute und morgen|Rundgespr�che Komm. �kologie, Verlag Dr. F. Pfeil, M�nchen|Bd. 27, %Erh�hte UV-Strahlung: Folgen und Ma�nahmen%, ISBN 3-89937-048-1|19-28|Strahlung|ja|ja|
Koepke, P., K.T. Kriebel, and B. Dietrich|1985|The effect of surface reflection function and the atmospheric parameters on the shortwave radiation budget|Adv. Space Res.|5(6)|351-354|Strahlung|ja|ja|
Koepke, P., M. Garhammer, M. Hess, and E.-P. Roeth|2010|NO2 photolysis frequencies in street canyons|Atmospheric Chemistry and Physics|10|7457-7466|Strahlung|ja|ja|
Koepke, P., M. Garhammer, P. Hoeppe, B. Klotz, J. Reuder and M. Seefeldner|2022|Solar UV Radiation, Bittner, M. (ed.)|Science at the Environmental Research Station Schneefernerhaus/Zugspitze||130-143|Strahlung|ja|nein|
Koepke, P., M. Hess, I. Schult, and E. Shettle|1994|Global Aerosol Data Set|Fourth International Aerosol Conference, R.C. Flagan (Eds.)|Los Angeles|420-421|Strahlung|nein|ja|
Koepke, P., M. Hess, I. Schult, and E.P. Shettle|1997|Global aerosol data set|Rep. No. 243|Max-Planck-Inst. f&uuml;r Meteorologie, Hamburg|44 pp|Strahlung|nein|ja|
Koepke, P., M. Hess, R. Meerkötter, H. Quenzel, D. Rabus, E. Tamm, E. Thomalla, W. Thomas, und B. Vogel|1992|Zur Fernerkundung von Bodenalbedo und optischen Aerosoleigenschaften|Wetter u. Leben|44|153-160|Strahlung|ja|nein|
Koepke, P., W. Thomas, and E. Roeckner|1992|The impact of a huge solar farm on global climate: A case study|Sec. Int. Conf. on Mod. Glob. Climate Change Variability|MPI Meteorology Hamburg|71|Strahlung|nein|ja|
Koepke, P., and H. Quenzel|1976|Remote sensing of atmospheric turbidity from geosynchronous orbit|Atmospheric aerosols: their optical properties and effects|NASA Langley Res. Center, Hampton, Virg. USA||Strahlung|nein|ja|
Koepke, P., and H. Quenzel|1978|Water vapour: spectral transmission at wavelengths between 0.7 and 1 um|Appl. Opt.|17 (13)|2114-2118|Strahlung|ja|ja|
Koepke, P., and H. Quenzel|1979|Turbidity of the atmosphere determined from satellite: Calculation of optimum viewing geometry|J. Geophys. Res.|84 (C12)|7847-7856|MesoMikro|ja|ja|
Koepke, P., and H. Quenzel|1982|Coorection to "Turbidity of the atmospheric determined from satellite: Calculation of optimum wavelength"|J. Geophys. Res.|87 (C9)|7350|Strahlung|ja|ja|
Koepke, P., and H. Quenzel|1997|Radiative effects of desert aerosols|Proc. Alfred Wegener Conf. Sediment and aerosol||84-87|Strahlung|nein|ja|
Koepke, P., and K.T. Kriebel|1978|Influence of measured reflection properties of vegetated surfaces on the atmospheric radiance and its polarization|Appl. Opt.|17 (2)|260-264|Strahlung|ja|ja|
Koepke, P., and K.T. Kriebel|1981|Radiances at the top of the atmosphere - a means to determine the radiation budget at the ocean surface?|Ext. Abstracts IAMAP Third Sci. Assembly|IAMAP, Boulder, Col., USA|170-173|Strahlung|nein|ja|
Koepke, P., and K.T. Kriebel|1987|Improvements in the shortwave cloud-free radiation budget accuracy. Part I: Numerical study including surface anisotropy|J. Clim. Appl. Meteorol.|26 (3)|396-409|Strahlung|ja|ja|
Koepke, P., and M. Mech|2005|UV radiation on arbitrarily oriented surfaces: Variation with atmospheric and ground properties|Theoretical and Applied Climatology|81|25-32|Strahlung|ja|ja|
Koepke, P., and M. Mech|2006|Orientierungsabhängige UV-Bestrahlung des menschlichen Körpers|Ozonbulletin des Deutschen Wetterdienstes|111|1-2|Strahlung|ja|ja|
Koepke, P., and the COST 726 Data and Model Consortium|2005|UV exposure in Europe during the past|Annalen der Meteorologie|41(2)|659-662|Strahlung|ja|ja|
Koepke, P., und M. Sachweh|1992|Nebel und Stadtklima|Ann. d. Meteorol.|27|119-120|Strahlung|nein|ja|
Koepke, P.|1977|Comparison of models used for UV index calculations|WMO, GAW 27|WQMO/TD-Nr.921|85-87|Strahlung|nein|ja|
Koepke, P.|1980|Calibration of the METEOSAT IR-channel by ground measurements|Contr. Atm. Phys.|53 (3)|442-445|Strahlung|ja|ja|
Koepke, P.|1980|Satellite calibration from ground|IRS 1980: Extended abstracts|Col. Univ. Ft. Collins|404-406|Strahlung|nein|ja|
Koepke, P.|1981|Aerosol optical thickness in the German Bight during MARSEN|Eurasep Newsletter|4|13-18|Strahlung|nein|ja|
Koepke, P.|1982|Calibration of Meteosat-1-channels VIS and IR|BMFT Report|MF-0235|9pgs|Theorie|nein|ja|
Koepke, P.|1982|Vicarious satellite calibration in the solar spectral range by means of calculated radiances and its application to Meteosat.|Appl. Opt.|21 (15)|2845-2854|Strahlung|ja|ja|
Koepke, P.|1984|Effective reflectance of oceanic whitecaps|Appl. Opt.|23(11)|1816-1824|Strahlung|ja|ja|
Koepke, P.|1985|The reflectance factors of a rough ocean with foam|Int. J. Remote Sensing|6(5)|787-799|Strahlung|ja|ja|
Koepke, P.|1986|Clear land anisotropy conversion factors: a comparison of theoretical and experimental results|Proc. ISLSCP Conf, ESA|SP-248|271-276|Strahlung|nein|ja|
Koepke, P.|1986|Remote Sensing Signatures of Whitecaps|E.C. Monahan and G. MacNiocaill (Eds.)|Oceanic Whitecaps, Reidel, Pub. Comp., Dordrecht|251-260|Strahlung|nein|ja|
Koepke, P.|1987|Die Rolle der Anisotropie bei der Fernerkundung der Albedo von landoberflächen |N. Beier (Hrsg) Universität München - Meteorol. Inst.|Wiss. Mitteilung Nr. 56|157-160|Strahlung|nein|ja|
Koepke, P.|1988|Abschätzung der Globalstrahlung im UV-Bereich|Institutsinterne Publikation|MIM-FB_88-S4|9 pgs.|Strahlung|nein|ja|
Koepke, P.|1989|Removal of Atmospheric Effects from AVHRR albedo|J. Appl. Meteorol. |28|1341-1348|Strahlung|ja|ja|
Koepke, P.|1989|Removal of atmospheric effects from AVHRR solar channel clear-sky albedos|4th AVHRR data user Meeting||4 pgs|Strahlung|nein|ja|
Koepke, P.|1990|Fernerkundung von Aeropartikeln vom Satelliten aus|Promet 20 (3/4), Deutscher Wetterdienst, Offenbach||96-100|Strahlung|nein|ja|
Koepke, P.|1992|Climatic Effects of Atmospheric Aerosols |In: N. Fukuta and P.E. Wagner (Edts.)|Nucleation and Atmospheric Aerosols, Deepak Publ. Hampton|485-492|Strahlung|nein|ja|
Koepke, P.|1993|Energy balance of solar power plants: result of a one-dimensional model|Beitr. Phys. Atmosph.|66 (1-2)|31-43|Strahlung|ja|ja|
Koepke, P.|1993|Modellierung von UV-B-Strahlung|In: Terrestrial solar UV-Monitoring|M. Steinmetz (Hrsg) BfS-IHS-163/93|11-14|Strahlung|nein|ja|
Koepke, P.|1994|Spektrale und integrale UV-B-Strahlung und Ozon in Bayern|Rundgespräche Komm. Ökologie|8: Klimaforschung in Bayern, Verlag Pfeil, München|67-78|Strahlung|nein|ja|
Koepke, P.|1999|Present understanding of the UV radiation in the atmosphere|Swiss Agency Environ. Forests a. Landscape (SAEFL) Environm|110|90-93|Strahlung|nein|ja|
Koepke, P.|2008|Solare UV-Dosis und ihre Abhängigkeit von atmosphärischen Bedingungen und menschlichem Verhalten|Klimawandel und Hautkrebs, ibidem-Verlag, M. Kappas (Hrsg.), Stuttgart||97-117|Strahlung|ja|ja|
Koepke, P.|2009|Radiative models for the evaluation of the UV radiation at the ground|Radiation Protection Dosimetry|137, No 3-4|188-192|Strahlung|ja|ja|
Kokhanovsky, A. A.,  V. P. Budak, C. Cornet, M. Duan, C. Emde, I. L. Katsev, D. A. Klyukov, S. V. Korkin, L. C-Labonnote, B. Mayer, Q. Min, T. Nakajima, Y. Ota, A. S. Prikhach, V. V. Rozanov, T. Yokota, and E. P. Zege|2010|Benchmark results in vector atmospheric radiative transfer|J. Quant. Spectrosc. Radiat. Transfer|111(12-13)|1931-1946|Strahlung|ja|ja|
Kokhanovsky, A., B. Mayer, V. Rozanov, K. Wapler, J. P. Burrows, and U. Schumann|2007|The influence of broken cloudiness on cloud top height retrievals using nadir observations of backscattered solar radiation in the oxygen A-band|Journal of Quantitative Spectroscopy and Radiative Transfer|103|460-477|Strahlung|ja|nein|
Kokhanovsky, A., B. Mayer, V. Rozanov, K. Wapler, L. Lamsal, M. Weber, J. P. Burrows, and U. Schumann|2007|Satellite ozone retrieval under broken cloud conditions: an error analysis based on Monte-Carlo simulations|IEEE Transactions on Geoscience and Remote Sensing|45|187-194|Strahlung|ja|nein|
Kokhanovsky, A., B. Mayer, and V. Rozanov|2005|A parameterization of the diffuse transmittance and reflectance for aerosol remote sensing problems|Atmospheric Research|73|37-43|Strahlung|ja|nein|
Kokhanovsky, A., B. Mayer, and W. von Hoyningen-Huene|2007|Retrieval of cloud spherical albedo from top-of-atmosphere reflectance measurements performed at a single observation angle|Atmospheric Chemistry and Physics|7|3633-3637|Strahlung|ja|nein|
Kokhanovsky, A., H. Bovensmann, K. Bramstedt, O. Jourdan, W. Lotz, S. Noel, M. Schreier, W. von Hoyningen-Huene, M. Wiegner, R. Lindsrot, T. Nauss, V. V. Rozanov, and J. P. Burrows|2006|SCIAMACHY cloud product validation|Proceedings of the third workshop on the Atmospheric Chemistry Validation of ENVISAT (ACVE-3)|4-7 December 2006, ESRIN, Frascati, Italy|CD-ROM|Strahlung|nein|ja|
Kokhanovsky, A., J. L. Deuzé, D. J. Diner, O. Dubovik, F. Ducos, C. Emde, M. J. Garay, R. G. Grainger, A. Heckel, M. Herman, I. L. Katsev, J. Keller, R. Levy, P. R. J. North, A. S. Prikhach, V. V. Rozanov, A. M. Sayer, Y. Ota, D. Tanré, G. E. Thomas, and E. P. Zege|2010|The inter-comparison of major satellite aerosol retrieval algorithms using simulated intensity and polarization characteristics of reflected light|Atmospheric Measurement Techniques|3(4)|909-932|Strahlung|ja|ja|
Konopka, P., F. Ploeger, M. Tao, T. Birner, M. Riese|2015|Hemispheric asymmetries and seasonality of mean age of air in the lower stratosphere: Deep versus shallow branch of the Brewer-Dobson circulation|J. Geophys. Res.|||Theorie|||
Konow, H., Ewald, F., George, G., Jacob, M., Klingebiel, M., Kölling, T., Luebke, A. E., Mieslinger, T., Pörtge, V., Radtke, J., Schäfer, M., Schulz, H., Vogel, R., Wirth, M., Bony, S., Crewell, S., Ehrlich, A., Forster, L., Giez, A., Gödde, F., Groß, S., Gutleben, M., Hagen, M., Hirsch, L., Jansen, F., Lang, T., Mayer, B., Mech, M., Prange, M., Schnitt, S., Vial, J., Walbröl, A., Wendisch, M., Wolf, K., Zinner, T., Zöger, M., Ament, F., and Stevens, B.|2021|EUREC4A's HALO|Earth Syst. Sci. Data|13|5545–5563, https://doi.org/10.5194/essd-13-5545-2021|Strahlung|ja|ja|
Korkin, S., E.-S. Yang, R. Spurr, C. Emde, N. Krotkov, A. Vasilkov, D. Haffner, J. Mok, and A. Lyapustin|2020|Revised and extended benchmark results for Rayleigh scattering of sunlight in spherical atmospheres|J. Quant. Spectrosc. Radiat. Transfer|254|107181|Strahlung|ja|ja|
Korkin, S., E.-S. Yang, R. Spurr, C. Emde, P. Zhai, N. Krotkov, A. Vasilkov, and A. Lyapustin|2022|Numerical results for polarized light scattering in a spherical atmosphere|JQSRT|287|108194|Strahlung|ja|ja|
Kostka, P. M., M. Weissmann, R. Buras, B. Mayer and O. Stiller |2014|Observation Operator for Visible and Near-Infrared Satellite Reflectances|J. Atmos. Oceanic Technol.| 31|1216–1233. <a href=http://journals.ametsoc.org/doi/abs/10.1175/JTECH-D-13-00116.1 target='_blank'> (link)</a>|Herz,Theorie,Strahlung|ja|ja|
Kramm, G., R. Dlugi, D.-H. Lenschow|1994|A Re-evaluation of the Webb-correction using density weighted averages|Journal of Hydrology|166|283-292|Strahlung|ja|ja|
Kramm, G., R. Dlugi, J. Dollard, N. Mölders, W. Seiler, and H. Sievering|1995|On the determination of dry deposition fluxes of ozone and reactive nitrogen compounds|Atmospheric Environment||3209-3231|Strahlung|ja|ja|
Kramm, G., R. Dlugi, T. Foken, N. M&ouml;lders, H. M&uuml;ller, P. Schr&ouml;der, Th. Seiler, W. Seiler, H. Sievering|1994|Estimating the dry deposition of ozone and reactive nitrogen compounds within the frame work of the Project SANA|to be published in|Transaction of Air & Waste Management Association||Strahlung|nein|ja|
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M. T. Montgomery and R. K. Smith|2018|Comments on: Revisiting the balanced and unbalanced aspects of tropical cyclone intensification, by J. Heng, Y. Wang and W. Zhou.|J. Atmos. Sci.|75|2491-2496|MesoMikro|ja|ja|
M. T. Montgomery and R. K. Smith|2019|Towards understanding the dynamics of spin up in Emanuel's tropical cyclone model.|J. Atmos. Sci.|76|3089-3093|MesoMikro|ja|ja|
M. T. Montgomery and R. K. Smith|2025| Comments on: "Marathon versus sprint: Two modes of tropical cyclone rapid intensification in a global convection-permitting simulation" by F. Judt and coauthors|Mon. Wea. Rev.|153|365–367|MesoMikro|ja|ja|
M. T. Montgomery, J. Persing, and R. K. Smith|2019|On the hypothesized outflow control of tropical cyclone intensification.|Quart. J. Roy. Meteor. Soc.|145|1309-1322|MesoMikro|ja|ja|
Mack||||||Theorie|||
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Menhofer, A., R. K. Smith, M. J. Reeder, and D. R. Christie|1997|Morning Glory disturbances and the environment in which they propagate|Journal of the Atmospheric Sciences|54|1712-1725|MesoMikro|ja|ja|
Menhofer, A., R. K. Smith, M. J. Reeder, and D. R. Christie|1997|The bore-like character of three morning glories observed during the Central Australian Fronts Experiment|Australian Meteorological Magazine|46|277-285|MesoMikro|ja|ja|
Merk, D. and T. Zinner|2013|Detection of Convective Initiation using Meteosat SEVIRI: Implementation in and verification with the tracking and nowcasting algorithm Cb-TRAM|Atmospheric Measurement Techniques|6|1903-1918, <a href=http://www.atmos-meas-tech.net/6/1903/2013/amt-6-1903-2013.html target='_blank'>doi:10.5194/amt-6-1903-2013</a>|Strahlung|ja|ja|
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Mitchell, J. L., T. Birner, G. Lapeyre, N. Nakamura, P. L. Read, G. Riviére, A. Sánchez-Lavega, G. K. Vallis|2019|Zonal Jets in Nature - Terrestrial Atmospheres||Zonal Jets, Eds. B. Galperin, P. L. Read; Cambridge University Press||Theorie|ja|ja|
Moeller, F. H. Quenzel|1972|Über die Wechselwirkung zwischen Bodenreflektionsvermögen und Himmelshelligkeit|Gerl. Beitr. z. Geophys.|81|407-413|MesoMikro|ja|ja|
Molini, L., A. Parodi, N. Rebora, and G. C. Craig|2011|Classifying severe rainfall events over Italy by hydrometeorological and dynamical criteria|Quart. J. Roy. Meteor. Soc.|137|148-154|Theorie|ja|ja|
Montgomery M. T. and R. K. Smith|2024|Comments on: "Marathon versus sprint: Two modes of tropical cyclone rapid intensification in a global convection-permitting simulation" by F. Judt and coauthors|Mon. Wea. Rev.,|153|365-367|MesoMikro|ja|ja|
Montgomery MT and Smith RK|2017|Recent developments in the fluid dynamics of tropical cyclones|Annu. Rev. Fluid Mech.|49|541-574|MesoMikro|ja|ja|
Montgomery MT, Kilroy G, Smith RK, and Črnivec N|2021|Contribution of mean and eddy momentum processes to tropical cyclone intensification.|Quart. J. Roy. Meteor. Soc. |146|3101-3117|MesoMikro|ja|ja|
Montgomery,  M. T., R. K. Smith, and S. V. Nguyen|2010|Sensitivity of tropical cyclone models to the surface exchange coefficients |Quart. J. Roy Met. Soc.|136|1945-1953|MesoMikro|ja|ja|
Montgomery,  M. T., and R. K. Smith|2012|The genesis of Typhoon Nuri as observed during the Tropical Cyclone Structure 2008 (TCS08) field experiment. Part 2: Observations of the convective environment|Atmos. Chem. Phys. |12|4001-4009|MesoMikro|ja|ja|
Montgomery, M. T. and L. J. Shapiro|1995|Generalized Charney-Stern and Fjortoft theorems for rapidly rotating vortices|J. Atmos. Sci.|52|1829-1833|MesoMikro|ja|ja|
Montgomery, M. T. and R. K. Smith|2009|On an analytical model for the rapid intensification of tropical cyclones|Quart. J. Roy Met. Soc.|136|549-551|MesoMikro|ja|ja|
Montgomery, M. T. and R. K. Smith|2014|Paradigms for tropical-cyclone intensification|Aust. Meteor. Ocean. Journl. (Bruce Morton Memorial Volume)|64|37-66|MesoMikro|ja|ja|
Montgomery, M. T. and R. K. Smith|2017|On the applicability of linear, axisymmetric dynamics in intensifying and mature tropical cyclones.|Fluids|2 (4)|69|MesoMikro|ja|ja|
Montgomery, M. T. and R. K. Smith|2022|Minimal conceptual models for tropical cyclone intensification|Tropical Cyclone Research and Review|11|61-75|MesoMikro|ja|ja|
Montgomery, M. T., C. Davis, T. Dunkerton, Z. Wang, C Velden, R. Torn, S. Majumdar, F. Zhang, R. K. Smith, L. Bosart, M. Bell, J. Haase, M. A. Boothe|2012|The Pre-Depression Investigation of Cloud Systems in the Tropics (PREDICT) Experiment: Scientific Basis and Some First Results|Bull. Amer. Meteor. Soc.|93|153-172|MesoMikro|ja|ja|
Montgomery, M. T., J. A. Zhang and R.K. Smith|2014|The low-level structure of rapidly intensifying and mature Hurricane Earl (2010).|Quart. J. Roy Met. Soc.|140|2132-2146|MesoMikro|ja|ja|
Montgomery, M. T., J. D. M&ouml;ller and C. T. Nicklas|1999|Linear and nonlinear vortex motion in an asymmetric balance shallow water model|J. Atmos. Sci.|56|749-768|MesoMikro|ja|ja|
Montgomery, M. T., J. Persing and R. K. Smith|2015|Putting to rest WISHE-ful misconceptions |J. Adv. Model. Earth Syst.|07||MesoMikro|ja|ja|
Montgomery, M. T., R. K. Smith and J. Persing|2026|Tropical cyclone energetics revisited|J. Atmos. Sci.|83|29-44|MesoMikro|ja|ja|
Montgomery, M. T., S. F. Abarca, R. K. Smith, C-C. Wu and Y-H. Huang|2014|Comments on 'How does the boundary layer contribute to eyewall replacement cycles in axisymmetric tropical cyclones?' by J. D. Kepert|J. Atmos. Sci.|71|4682-4691|MesoMikro|ja|ja|
Montgomery, M. T., S. V. Nguyen, R. K. Smith and J. Persing,|2009| Is WISHE essential for tropical cyclone intensification?|Quart. J. Roy Met. Soc.|135|1697-1714|MesoMikro|ja|ja|
Montgomery, M. T., and R. K. Smith|2010|Tropical-cyclone formation: Theory and idealized modelling. Report for the Seventh International Workshop on Tropical Cyclones, La Réunion, Nov. 2010||World Meteorological Organization, Geneva, Switzerland||MesoMikro|ja|ja|
Mylonaki, M., M. Gini, M. Georgopoulou, M. Pilou, E. Chalvatzaki, S. Solomos, E. Diapouli, E. Giannakaki, M. Lazaridis, S. Pandis, A. Nenes, K. Eleftheriadis, A. Papayannis|2024|Wildfire and African dust aerosol oxidative potential, exposure and dose in the human respiratory tract|Sci. Total Environ.|913|169683|Strahlung,Lidar|ja|ja|
Mörl, P., H. Quenzel, W. Renger, a. Schmitz-Peiffer, U. Schumann, E. Weber and M. Wiegner|1988|ALEXIS-Atmospheric Lidar Experiment in Space|DFVLR-Mitt.|88-10|84|MesoMikro|ja|ja|
Müller, D., A. Ansmann, V. Freudenthaler, K. Kandler, C. Toledano, A. Hiebsch, J. Gasteiger, M. Esselborn, M. Tesche, B. Heese, D. Althausen, B. Weinzierl, A. Petzold, and W. von Hoyningen-Huene|2010|Mineral dust observed with AERONET Sun photometer, Raman lidar, and in situ instruments during SAMUM 2006: Shape-dependent particle properties|J. Geophys. Res.|115|D11207, doi:10.1029/2009JD012523|Strahlung,Lidar|ja|ja|
Müller, D., B. Heinold, M. Tesche, I. Tegen, D. Althausen, L. Alados Arboledas, V. Amirdis, A. Amodeo, A. Ansmann, D. Balis, A. Comeron, G. D'amico, E. Gerasopoulos, J. L. Guerrero-Rascado, V. Freudenthaler, E. Giannakaki, B. Heese, M. Iarlori, P. Knippertz, R. E. Mamouri, L. Mona, A. Papayannis, G. Pappalardo, R.-M. Perrone, G. Pisani, V. Rizi, M. Sicard, N. Spinelli, A. Tafuro, and M. Wiegner|2009|EARLINET observations of the 14-22-May long-range dust transport event during SAMUM 2006: validation of results from dust transport modelling|Tellus B|61|325-339, DOI: 10.1111/j.1600-0889.2008.00400.x|Strahlung, Lidar|ja|ja|
Müller, D., B. Weinzierl, A. Petzold, K. Kandler, A. Ansmann, T. Müller, M. Tesche, V. Freudenthaler, M. Esselborn, B. Heese, D. Althausen, A. Schladitz, S. Otto, and P. Knippertz|2010|Mineral dust observed with AERONET Sun photometer, Raman lidar, and in situ instruments during SAMUM 2006: Shape-independent particle properties|Journal of Geophysical Research|115|D07202, doi:10.1029/2009JD012520|Strahlung|ja|ja|
Müller, D., F. Wagner, D. Althausen, U. Wandinger, and A. Ansmann|2000|Physical properties of the Indian aerosol plume derived from 6-wavelength lidar observations on 25 March 1999 during Indian Ocean Experiment|Geophysical Research Letters|27(9)|1403-1406|Strahlung. Lidar|ja|ja|
Müller, D., F. Wagner, U. Wandinger, A. Ansmann, M. Wendisch, A. Althausen, and W. von Hoyningen-Huene|2000|Microphysical particle parameters from extinction and backscatter lidar data by inversion with regularization: experiment|Applied Optics|39(12)|1879-1892|Strahlung. Lidar|ja|ja|
Müller, D., K. Franke, F. Wagner, D. Althausen, A. Ansmann, J. Heintzenberg, and G. Verver|2001|Vertical profiling of optical and physical particle properties over the tropical Indian Ocean with six-wavelenght lidar, part II: Case studies|Journal of Geophysical Research|106(D22)|28577-28595.94-105|Strahlung, Lidar|ja|ja|
Müller, D., K. Franke, F. Wagner, D. Althausen, A. Ansmann, and J. Heintzenberg|2001|Vertical profiling of optical and physical particle properties over the tropical Indian Ocean with six-wavelength lidar, part I: Seasonal cycle|Journal of Geophysical Research|106(D22)|28567-2857594-105|Strahlung, Lidar|ja|ja|
Müller, D., K. H. Lee, J. Gasteiger, M. Tesche, B. Weinzierl, K. Kandler, T. Muller, C. Toledano, S. Otto, D. Althausen, and A. Ansmann|2012|Comparison of optical and microphysical properties of pure Saharan mineral dust observed with AERONET Sun photometer, Raman lidar, and in situ instruments during SAMUM 2006|J. Geophys. Research|117|doi: 10.1029/2011jd016825.|Strahlung|ja|ja|
Müller, D., K.-H. Lee, J. Gasteiger, M. Tesche, B. Weinzierl, K. Kandler, T. Müller, C. Toledano, S. Otto, D. Althausen, and A. Ansmann|2012|Comparison of optical and microphysical properties of pure Saharan mineral dust observed with AERONET Sun photometer, Raman lidar, and in situ instruments during SAMUM 2006|J. Geophys. Res.|117|D07211, doi:10.1029/2011JD016825|Strahlung,Lidar|ja|ja|
Müller, H. and H. Quenzel|1985|Information Content of Multispectral Lidar Measurements with Respect to the Aerosol Size Distribution|Appl. Opt.|24|648-654|MesoMikro|ja|ja|
Müller, H. and H||||||Theorie||ja|
Müller, H., H. Quenzel|1978|Study on the information content of ground based LIDAR-measurements|Annual Summary Report|EURATOM-Contract No 649-76-12-SISPC, München, Jan. 1978||MesoMikro|ja|ja|
Müller, H., H. Quenzel|1979|Inversion of the Aerosol Size Distribution from Backscatter- and Extinction Coefficients at four Lidar Wavelengths|Proceedings of the 9th Intern. Laser Radar Conference, München 2-5 July|||MesoMikro|ja|ja|
Müller, H., H. Quenzel|1979|Study on the information content of ground based LIDAR-measurements|Annual Summary Raport, EURATOM-Contract|791-77-10 SISPD, München Jan. 1979||MesoMikro|ja|ja|
Müller, H., H. Quenzel|1980|Study on the information content of ground-based LIDAR-measurements|Annual summary Report, EURATOM-Contract No 974-78-11-SISPD, München Jan. 1980|||MesoMikro|ja|ja|
Müller, J. D., and L. J. Shapiro|2002|Balanced contributions to the intensification of Hurricane Opal as diagnosed from a GFDL model forecast|Monthly Weather Review|130|1866-1881|MesoMikro|ja|ja|
Müller, J. D., and L. J. Shapiro|2005|Influences of asymmetric heating on hurricane evolution in the MM5|Journal of the Atmospheric Sciences|62|3974-3992|MesoMikro|ja|ja|
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Pfeifer M., G. C. Craig, M. Hagen and C. Keil|2008|A polarimetric radar forward operator for model evaluation|J. Appl. Meteor. Clim.|47|3202-3220|Theorie|ja|nein|
Pfeifer, M. W. Yen, M. Hagen, G. C. Craig, T. Reinhardt, M. Mech, S. Crewell,  A. Hünerbein, J. Fischer, M. Schröder, M. Baldauf and A. Seifert  |2010|Validating precipitation forecasts using sensor synergy: The case study approach|Meteorologische Zeitschrift|19|601-617|Theorie|ja|ja|
Pfeifer, M., G. Craig, M. Hagen, and C. Keil|2004|A Polarimetric Radar forward Operator|Third European Conference on Radar Meteorology and Hydrology (ERAD)||494-498|Theorie|ja|nein|
Pfeifer, M., G. Craig, M. Hagen, and C. Keil|2008|A polarimetric radar forward operator for model evaluation|Journal of Applied Meteorology|47|3202-3220|Theorie|ja|nein|
Pfeifer, M., P. Koepke, and J. Reuder|2006|Effects of altitude and aerosol on UV radiation|Journal of Geophysical Research||D01203, doi:10.1029/2005JD006444|Strahlung|ja|ja|
Pfeiffer, A., and G. Zängl|2010|Validation of climate-mode MM5-simulations for the European Alpine Region|Theoretical and Applied Climatology|101|93-108, DOI: 10.1007/s00704-009-0199-5|Theorie|ja|ja|
Pfeiffer, A., and G. Zängl|2011|Regional climate simulations for the European Alpine Region - sensitivity of precipitation to large scale flow conditions of driving input data|Theoretical and Applied Climatology||DOI: 10.1007/s00704-010-0394-4|Theorie|ja|ja|
Placzek, M., U. Kerkmann, S. Bell, P. Koepke, and B. Przybilla|2004|Tobacco smoke is phototoxic|British Journal of Dermatology|150|991-993|Strahlung|ja|ja|
Plant, J. M., and G. C. Craig|2007|A stochastic parameterization for deep convection based on equilibrium statistics|Journal of the Atmospheric Sciences|65|87-105|Theorie||ja|
Ploeger, F.,  B. Legras, E. Charlesworth, X. Yan, M. Diallo, P. Konopka, T. Birner, M. Tao, A. Engel, M. Riese|2019|How robust are stratospheric age of air trends from different reanalyses?|Atmos. Chem. Phys.|19|6085–6105, https://doi.org/10.5194/acp-19-6085-2019|Theorie|ja|ja|
Ploeger, F., M. Abalos, T. Birner, P. Konopka, B. Legras, R. Müller, M. Riese|2015|Quantifying the effects of mixing and residual circulation on trends of stratospheric mean age of air|Geophys. Res. Lett.|||Theorie|||
Ploeger, F., T. Birner|2016|Characteristics of lower stratospheric transport as inferred from the age of air spectrum|Atmos. Chem. Phys.|||Theorie|||
Polonik, P., Knote, C., Zinner, T., Ewald, F., Kölling, T., Mayer, B., Andreae, M. O., Jurkat-Witschas, T., Klimach, T., Mahnke, C., Molleker, S., Pöhlker, C., Pöhlker, M. L., Pöschl, U., Rosenfeld, D., Voigt, C., Weigel, R., and Wendisch, M.|2020|The challenge of simulating the sensitivity of the Amazonian cloud microstructure to cloud condensation nuclei number concentrations|Atmos. Chem. Phys.|20|1591–1605, https://doi.org/10.5194/acp-20-1591-2020|Strahlung|ja|ja|
Preissler, M., M. J. Reeder and R. K. Smith,|2002|A case study of a heat low over central Australia|Aust. Meteor. Mag.|51|155-163|MesoMikro|ja|ja|
Proschek, V. , G. Kirchengast, C. Emde and S. Schweitzer                                                                                              |2014|Greenhouse gas profiling by infrared-laser and microwave occultation in cloudy air: Results from end-to-end simulations| J. Geophys. Res. Atmos.|119|12,372–12,390, doi:10.1002/2014JD021938|Strahlung|ja|ja|
Puh, M., Keil, C. Gebhardt, C. Marsigli, C. Hirt, M. Jakub, F. Craig, G.C.|2023|Physically based stochastic perturbations improve a high-resolution forecast of convectio|Quaterly Journal of the Royal Meteorological Society|149 (757)|3582-3592 https://doi.org/10.1002/qj.4574|Theorie|ja|ja|
Puh, M., Tempest, K.I., Keil, C. & Craig, G.C. |2024|Flow dependence of forecast uncertainty in a large convection permitting ensemble|Quarterly Journal of the Royal Meteorological Society|In review |1-18, http://doi.org/10.1002/qj.4860|Theorie|ja|ja|
Pörtge, V., T. Kölling, A. Weber, L. Volkmer, C. Emde, T. Zinner, B. Mayer|2023|High spatial resolution retrieval of cloud droplet size distribution from polarized observations of the cloudbow|Atmos. Meas. Tech.|16|645–667, https://doi.org/10.5194/amt-16-645-2023|Strahlung|ja|ja|
Pörtge, V., T. Kölling, T. Zinner, B. Mayer, A. Weber, L. Forster, C. Emde, L. Volkmer|2023|Cloud droplet size distribution from 2-D polarization measurements of specMACS during EUREC4A|Aeris|[dataset]|https://doi.org/10.25326/549|Strahlung|nein|ja|
Qiu Jinhuan, H. Quenzel and M. Wiegner|1990|Parmeterized Multiple-Scatter Lidar Equation and its Application|Inst. of Atm. Optics, Tomsk|Abstract 15th ILRC, Tomsk|3435-348|MesoMikro|ja|ja|
Qizhong W., Zifa Wang, Huangsheng Chen, Wen Zhou, M. Wenig|2011|An evaluation of air quality modeling over Pearl River Delta during November 2006|Meteorology and Atmospheric Physics|116, Issue 3-4|113-132|Spurengase|ja|nein|
Quenzel, H. and E. Raschke|1986|Satellite Measurements of Radiation Budget of the Earth (3rd Symposium)|BMFT-Forschungsbericht|W 86-011|179|MesoMikro|ja|ja|
Quenzel, H. and E. Thomalla|1987|Remote Determination of the Aerosol Size Distribution from Ground-Based Measurements of the Solar Aureole Radiance|Kuo-Nan Liou and Zhou Xiuji, eds.: Tmospheric Radiation - Progress and Prospects, Proceedidngs BIRS, Aug. 26-30, 1986, Beijing and Boston||638-644|MesoMikro|ja|ja|
Quenzel, H. and P. Koepke|1984|Tropospheric Aerosol Optical Depth Inverted from Upwelling Radiances|H. E. Gerber and A. Deepak (Eds.), Aerosols and their Climatic Effects|A. Deepak Publishing, Hampton||MesoMikro|ja|ja|
Quenzel, H. |1980|Determination of Atmospheric Turbidity Using Satellites (a Survey). Proceedings der Techn. Conf. on the Obs. and Measurement of Atm. Pollution, Boulder, 20-24 Aug. 1979|Special Environment Rep. No 14|WMO-Publ. No 549, Geneva 1980|41-48|MesoMikro|ja|ja|
Quenzel, H., E. Thomalla and K. Nodop|1984|Performance Simulations of Backscatter Lidar|M. Endemann (Ed.): Orbiting Lidars for Atmospheric Sounding|Volume 1. Final Report to ESTEC by Batelle-Institut e.V., Frankfurt a. M., Dec. 1984|107-197|MesoMikro|ja|ja|
Quenzel, H., H. Mueller, E. v. Dall'Armi|1980|Information content of optical data concerning aerosol size distribution|Vol. of Ext. Abstracts of the 1980 International Radiation Symposium, Colorado State Univeristy, Fort Collins, Colorado, USA ||184-186|MesoMikro|ja|ja|
Quenzel, H., H. Müller|1978|Optical Properties of Single Mie-Particles: Diagrams of Intensity- Extinction- Scattering - and Absorption Efficiencies|Wiss. Mitt. Univ. München, Met. Inst., Oct. 1978|34||MesoMikro|ja|ja|
Quenzel, H., J. Heintzenberg, P. Köpke|1976|Aerosol Size Distribution Inverted from Spectral Solar Attenuation plus Scattering Measurements|NASA CP-2004 Suppl. MA3-1 to 4|||MesoMikro|ja|ja|
Quenzel, H., M. Kaestner|1980|Optical properties of the atmosphere:calculated variability and application to satellite remote sensing of phytoplankton|Appl. Opt.|19|1338-1344|MesoMikro|ja|ja|
Quenzel, H., M. Kaestner|1981|Masking Effect of the Atmosphere on Remote Sensing of Chlorophyll|J. Gower (Ed.) Oceanography from Space, Plenum Press, New York||365-369|MesoMikro|ja|ja|
Quenzel, H., M. Kästner|1978|Remote Sensing of Chlorophyll in the ocean: Masking effects of the atmosphere. Final Rep. EURATOM-Contract No. 798-77-10 SISPD|Wiss. Mitt. Univ. München, Met Inst. Sept. 1978|33||MesoMikro||ja|
Quenzel, H., M. Wiegner, M. Kaestner, W. Renger and M. Endemann|1987|A Spaceborne Backscatter Lidar proposed fpr a German Space-Shuttle Mission|Aerosol and Climate, Deepak Publishing|||MesoMikro|ja|ja|
Quenzel, H., M. Wiegner, M. Kästner, W. Renger and M. Endemann|1988|A Spaceborne Backscatter Lidar proposed for a German Space-Shuttle Mission|P.V. Hobbs and M. P. McCormick|Aerosol and Climate, A Deepak Publishing|81-88|MesoMikro|ja|ja|
Quenzel, H., P. Koepke, M. Kaestner|1980|Monitoring of Atmospheric Turbidity from Geostationary Satellites. Proceedings der Tech. Conf. on the Obs. and Measurement of Atm. Pollution, Boulder Aug. 1979|Special Environmental Rep.|14, WMO-Publ. No. 549, Geneva 1980|49-56|MesoMikro|ja|ja|
Quenzel, H., P. Koepke, and M. Kaestner|1980|Monitoring of Atmospheric Turbidity from Geostationary Satellites|Spec. Environment Rep. No. 14|WMO-NO.549|49-56|Strahlung|nein|ja|
Quenzel, H., P. Köpke and K. T. Kriebel|1983|'Fundamental Approaches for Determining the Radiation Budget'|E. Raschke (Ed.) 'Satellite Measurements of Radiation Budget Parameters', BMFT-Report|FB-W83-025|64-71|MesoMikro|ja|ja|
Quenzel, H., P. Köpke and K. T. Kriebel|1983|Fernerkundungsmethoden (Übersicht)|Promet 3/4||9-13|MesoMikro|ja|ja|
Quenzel, H., P. Köpke and K. T. Kriebel|1983|Streuung, Absorption, Emission und Strahlungsübertragung in der Atmosphäre|Promet 3/4|83|2-8|MesoMikro|ja|ja|
Quenzel, H., P. Köpke|1973|Vorschlag zur Bestimmung dre Trübung der Atmosphäre aus den Meßwerten des 0.5-0.9 um Kanals des METEOSAT|Bericht der ad hoc-Gruppe METEOSAT des GARP-Komitees der BRD, München 1973|||MesoMikro|ja|ja|
Quenzel, H., Ruppensberger, R. Schellhase|1975|Calculations about the Systematic Error of Visibility-Meters Measuring Scattered Light|Atm. Env.|9|587-601|MesoMikro|ja|ja|
Quenzel, H., S. Bakan|1977|Calculation of Water Vapor Absorption Including Multiple Scattering |Proc. Symp. Radiation in the Atmosphere, H. J. Bolle (Ed.)|Sciens Press, Princeton|274-276|MesoMikro|ja|ja|
Quenzel, H., S. Bakan|1980|Use of the Three-Point-Approximation for determination of distribution of photon path lengths via inverse Laplace transform|Standard procedures to Compute Atmospheric Radiative Transfer in a Scattering Atmosphere |Vol II, Y. Fouquart, W. M. Irvine, J. Lenoble (Edts), Radiation Commission of IAMAP, Bouler, Febr. 1980|91|MesoMikro|ja|ja|
Quenzel, H.|1959|Bestimmung der optischen Eigenschaften von Lupolen - H im Spektralbereich 0.24 mu bis 15 mu und Entwicklung der benötigten Meßapparatur|Diplomarbeit für Physik|Universität Hamburg||MesoMikro|ja|ja|
Quenzel, H.|1966|Ankerplatz Äquator|Süddeutsche Zeitung|Wir lesen, Bd. 3, Kösel Verlag und Oldenbourg Verlag|118-120|MesoMikro|ja|ja|
Quenzel, H.|1966|Ein Interferenzfilter-Aktinograph zur optischen Bestimmung der atmosphärischen Gesamtwasserdampfgehaltes|Beitr. Phys. Atm.|39|112-114|MesoMikro|ja|ja|
Quenzel, H.|1967|Eine optische Methode zur Bestimmung des Gesamtwasserdampfgehaltes der Atmosphäre|Studia geoph. et geod. |11|439-447|MesoMikro|ja|ja|
Quenzel, H.|1967|Optische Besstimmung der Kontinuum-Absorption maritimer Luftmassen im Spektralbereich der Sonnenstrahlung|METEOR-Forschungsergebnisse B|No 1|36-40|MesoMikro|ja|ja|
Quenzel, H.|1968|Über den Einfluß der Dunstschichtung auf die Himmelsstrahlungsintensität im Sonnenvertikal|Gerl. Beitr. z. Geophys.|77|141-158|MesoMikro|ja|ja|
Quenzel, H.|1968|Über den Einfluß der vertikalen Trübungsschichtung auf den Energiegewinn der Atmosphäre durch die Kontinuum-Absorption|Pure and Appl. Geophys.|71|149-163|MesoMikro|ja|ja|
Quenzel, H.|1969|Der Einfluß der Aerosolgrößenverteilung auf die Meßgenauigkeit von Streulichtmessern|Gerl. Beitr. z. Geophys.|78|251-263|MesoMikro|ja|ja|
Quenzel, H.|1969|Strahlungsmessungen über dem tropischen Atlantik|Mitteilungsblatt der Univ. München Nr. XI S. 1-4|Nachgedruckt im Heidelberger Tageblatt Nr. 17||MesoMikro|ja|ja|
Quenzel, H.|1970|Author's Reply to Comments by Martens and Doonan |Appl. Optics|9|1931|MesoMikro|ja|ja|
Quenzel, H.|1970|Determination of Size Distribution of Atmospheric Aerosol Prticles from Spectral Solar Radiation Measurements|J. Geophys. Res.|75|2915|MesoMikro|ja|ja|
Quenzel, H.|1970|Ein neuer Prozeß in der Atmosphäre: Kontinuum-Absorption|Umschau in Wissenschaft und Technik|70|113|MesoMikro|ja|ja|
Quenzel, H.|1970|Ein neuer Prozß in der Atmosphäre: Kontinuum-Absorption|Umschau in Wissenschaft und Technik|70|113|MesoMikro|ja|ja|
Quenzel, H.|1970|Optical Determination of the Continuum-Absorption and of the Size Distribution of Aaerosol Prticles of Maritime Air Masses in the Spectral Region of Solar Radiation|Proceedings of the IUGG/WMO Symposion on Radiation in Bergen/Norway in August 1968|World Meteorological Organization Techn Note No 104 (WMO-No 248 TP 136). Geneva|331-334|MesoMikro|ja|ja|
Quenzel, H.|1971|Das atmosphärische Strahlungsfeld im Spektralbereich der Sonnenstrahlung |Wiss. Mitt. Meteor. Inst. München|21||MesoMikro|ja|ja|
Quenzel, H.|1971|Farbverhältnis und Strahldichte der Himmelsstrahlung in F. Möller: Einführung in die Meteorologie II|BI-Hochschultaschenbuch|288, 1973|35|MesoMikro|ja|ja|
Quenzel, H.|1972|An Integrated Program to Compare the Measured with the Calculated Atmospheric Radiation Field|Proc. Int. Rad. Symp. Sendai, Japan, Mai 26 - June 2|||MesoMikro|ja|ja|
Quenzel, H.|1978|Computation of Luminance and Colot Distribution in the Sky in M. R. Nagel, H. Quenzel, W. Kweta, R. Wendling: Daylight Illumination - Color - Contrast Tables|Academic Press, New York |||MesoMikro|ja|ja|
Quenzel, H.|1979|'Sensitivity to optical perturbing parameters'|Recommendations of the International Workshop on Atmospheric correction of Satellite Observation of Sea Water Colour|B. M. Sorensen (Ed), Ispra 1979||MesoMikro|ja|ja|
Quenzel, H.|1981|Sensitivity to Optical Perturbing Parmameters, in B. M. Sorensen (Ed.), Recommendations of the 2nd International Workshop on Atmospheric Correction of Satellite Observation of Sea Water Colour, Ispra, 1981||||MesoMikro|ja|ja|
Quenzel, H.|1982|Leserbrief 'Treibgase sind vielleicht eine Zeitbombe'|Süddeutsche Zeitung|149 vom 3./4. Juli 1982||MesoMikro|ja|ja|
Quenzel, H.|1982|Passive remote sensing of aerosols from space now and in the furture|Adv. Space Res. Vol. 2|5|19-28|MesoMikro|ja|ja|
Quenzel, H.|1983|Satellite Measurements of Tropospheric Aerosols|A. Deepak and H. E. Gerber (Edts) Aerosols and their Climatic Effects|WMO-Report WCP-55||MesoMikro|ja|ja|
Quenzel, H.|1984|Aerosol and Cloud Layering from Spaceborn Lidar, a Computer Study|Abstracts of Papers 12th ILRC, Aix-en-Provence 13-17 Aug. 1984|||MesoMikro|ja|ja|
Quenzel, H.|1984|Clouds and Aerosols: Determination of their Vertical Distribution|Proc. ESA Workshop on Space Lasesr Applications and Technology (SPLAT) 25-30 March 1984, ESA SP-202, 1984||217|MesoMikro|ja|ja|
Quenzel, H.|1984|Principles of Remote Sensing Techniques|P. Camagni and S. Sandroni (Edts) Optical Remote Sensing of Air Pollution|Elsevier Scientific Publ. Comp., Amsterdam|27-45|MesoMikro|ja|ja|
Quenzel, H.|1984|Scattering, Absorption, Emission and Radiative Transfer in the Atmosphere|P. Camagni and S. Sandroni (Edts) Optical Remote Sensing of Air Pollution, Elsevier Scientific Publ. Comp., Amsterdam||1-25|MesoMikro|ja|ja|
Quenzel, H.|1985|Allgemeines zur Wechselwirkung zwischen Strahlung und Materie|Promet|Heft 2/3|7|MesoMikro|ja|ja|
Quenzel, H.|1985|Streuung an Luftmolekülen und Aerosolpartikeln|Promet|Heft 2/3|7-9|MesoMikro|ja|ja|
Quenzel, H.|1987|Ein Rückstreulidar, vorgeschlagen für die zweite deutsche Spacelab-Mission|Münchener Universitätsschriften, Metorolog. Inst., Wiss. Mitteilungen|56|181-188|MesoMikro|ja|ja|
Quenzel, H.|1990|Charles Elachi: Introduction to the Physics and Techniques of Remote Sensing|Buchbesprechung. Beitr. Phys. Atm. |63|147-148 pp|MesoMikro|ja|ja|
Quenzel, H.|1992|Ausprägungen anthropogener Klimaänderung und ihre Auswirkung auf die Biosphäre|Politische Studien, Sonderheft |2/1992|22-31|MesoMikro|ja|ja|
Quinn, P. K., I. L. Anderson, T. S. Bates, R. Dlugi, J. Heintzenberg, W. von Hoyningen-Huene, M. Kulmala, P. B. Russel, and E. Swietlicki|1996|The State of Closure in Atmospheric Aerosol Research: A Review and Future Research Needs|Contributions to Atmospheric Physics|69|547-577|Strahlung|ja|ja|
Qunzel, H., M. Wiegner, Qiu Jinhuan|1990|Effects of Multiple Scattering on Lidar Remote Sensing from Space|Inst. of Atm. Optics, Tomsk|Abstract 15th ILRC, Tomsk|60-63|MesoMikro|ja|ja|
RONNY ENGELMANN1.∗, ALBERT ANSMANN1, STEFAN HORN1, PATRIC SEIFERT1, DIETRICH ALTHAUSEN1,MATTHIAS TESCHE1,MICHAEL ESSELBORN2, JULIA FRUNTKE3, KIRSTEN LIEKE4, V. Freudenthaler, and S. Groß||||||Theorie||ja|
Ramesh Kumar, M.R. and P. Schlüssel|1998|Air-sea interaction over the Indian Ocean during the two contrasting monsoon years 1987 and 1988 studied with satellite data|Theoretical and Applied Climatology|60|219-231|Strahlung|ja|ja|
Randles, C.A., S. Kinne, G. Myhre, M. Schulz, P. Stier, J. Fischer, L. Doppler, E. Highwood, C. Ryder, B. Harris, J. Huttunen, Y. Ma, T. Pinker, B. Mayer, D. Neubauer, R. Hitzenberger, L. Oreopoulos, D. Lee, G. Pitari, G. Di Genova, J. Quaas, F.G. Rose, S. Kato, S.T. Rumbold, I. Vardavas, N. Hatzianastassiou, C. Matsoukas, H. Yu, F. Zhang, H. Zhang, P. Lu |2013|Intercomparison of shortwave radiative transfer schemes in global aerosol modeling: results from the AeroCom Radiative Transfer Experiment|Atmos. Chem. Phys.|13|2347-2379|Strahlung|ja|ja|
Rapp, M., B. Kaifler, A. Dörnbrack, S. Giesinger, T. Mixa, R. Reichert, N. Kaifler, S. Knobloch, R. Eckert, N. Wildmann, A. Giez, L. Krasauskas, P. Preusse, M. Geldenhuys, M. Riese, W. Woiwode, F. Friedl-Vallon, B.-M. Sinnhuber, A. de la Torre, P. Alexander, J. L. Hormaechea, D. Janches, M. Garhammer, J. L. Chau, J. F. Conte, P. Hoor and A. Engel|2021|SOUTHTRAC-GW: An Airborne Field Campaign to Explore Gravity Wave Dynamics at the World's Strongest Hotspot|BAMS|Multi-Scale Dynamics of Gravity Waves (MS-GWaves)|E871-E893, DOI: 10.1175/BAMS-D-20-0034.1|Strahlung|ja|nein|
Rasp, S., M. Pritchard and P. Gentine|2018|Deep learning to represent sub-grid processes in climate models|Proceedings of the National Academy of Sciences||201810286 (<a href=https://doi.org/10.1073/pnas.1810286115>link</a>)|Theorie|ja|ja|
Rasp, S., T. Selz and G. C. Craig|2016|Convective and slantwise trajectory ascent in convection-permitting simulations of mid-latitude cyclones|Monthly Weather Review|EOR|doi:10.1175/MWR-D-16-0112.1 |Theorie|ja|ja|
Rasp, S., T. Selz and G. C. Craig|2018|Variability and clustering of mid-latitude summertime convection: Testing the Craig and Cohen (2006) theory in a convection-permitting ensemble with stochastic boundary layer perturbations|J. Atmos. Sci.|EOR|https://doi.org/10.1175/JAS-D-17-0258.1|Theorie|ja|ja|
Raymond D, and Kilroy G|2019|Control of Convection in High-Resolution Simulations of Tropical Cyclogenesis|J. Adv. Model. Earth Syst.,|11|685-699|MesoMikro|ja|ja|
Reeder, M. J. and R. K. Smith|1998|Mesoscale meteorology in the Southern Hemisphere. Chapter 5 of Meteorology of the Southern Hemisphere.  Ed. D. J. Karoly and D. Vincent|American Meteorological Society Monograph|No. 49|201-241|MesoMikro|ja|ja|
Reeder, M. J. and R. K. Smith|1998|Mesoscale meteorology in the Southern Hemisphere. Chapter 5 of Meteorology of the Southern Hemisphere|Ed. D. J. Karoly and D. Vincent. American Meteorological Society Monograph|49|201-241|MesoMikro|ja|ja|
Reeder, M. J., D. R. Christie, R. K. Smith and R. Grimshaw|1995| Nonlinear waves and bores over northern Australia|Bull. Amer. Meteor. Soc.|123|165-1171|MesoMikro|ja|ja|
Reeder, M. J., R. K. Smith, D. J. Low, J. Taylor, S. J. Arnup, L. Muir, and G. Thomsen|2013|Diurnal-Forced Convergence Lines in the Australian Tropics|Quart. J. Roy Met. Soc.|139|1283-1297|MesoMikro|ja|ja|
Reeder, M. J., R. K. Smith, R. Deslandes, N. J. Tapper and G. A. Mills|2000| Subtropical fronts observed during the 1996 Central Australian Fronts Experiment|Aust. Meteor. Mag.|49|181-200|MesoMikro|ja|ja|
Reeder, M. J., R. K. Smith, R. Deslandes, N. J. Tapper, and G. A. Mills|2000|Subtropical fronts observed during the 1996 Central Australian Fronts Experiment|Aust. Meteor. Mag.|49|181-200|MesoMikro|ja|ja|
Reeder, M. J., R. K. Smith, and S. J. Lord|1992|Reply to comments by Holland et al|Monthly Weather Review|120|2398-2400|MesoMikro|ja|ja|
Reichmann, Zs., and R. K. Smith|2003|Terrain influences on the dynamics of heat lows|Quarterly Journal of the Royal Meteorological Society||in print|MesoMikro|ja|ja|
Reinhardt, B., R. Buras, L. Bugliaro, S. Wilbert, B. Mayer|2014|Determination of circumsolar radiation from Meteosat Second Generation|Atmos. Meas. Tech.|7|823-838|Strahlung|ja|ja|
Reitebuch, O., M. Endemann, D. Engelbart, V. Freudenthaler, V. Lehmann, C. Lemmerz, E. Nagel, U. Paffrath, S. Rahm, and B. Witschas|2008|Pre-launch validation of ADM-AEOLUS with an airborne direct-detection wind Lidar|Proc. 24th International Laser Radar Conference, Boulder, Colorado, 23-27 June 2008|Volume I|41-44|Strahlung, Lidar|ja|ja|
Renger, W., A. Schmitz-Peiffer, P. Mörl and H. Quenzel|1988|The Atmospheric Lidar Experimente in Space (ALEXIS)|CNR-IROE/ILRC-CA-1988|Conference Abstracts, Innichen|133|MesoMikro|ja|ja|
Renger, W., M. Endemann, H. Quenzel and Ch. Werner|1986|Mie Lidar proposed for the German Space Shuttle Mission D2|Abstract of Papers 13th ILRC, Toronto 11-15 Aug. 1986, NASA Conf.|Publ. 2431|10-13|MesoMikro|ja|ja|
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Shapiro, L. J., and M. T. Montgomery|1993|A three-dimensional balance theory for rapidly rotating vortices|J. Atmos. Sci.|50|3322-3335|MesoMikro|ja|ja|
Shapiro, L. J., and S. B. Goldenberg|1998|Atlantic sea surface temperatures and hurricane formation|Journal of Climate|11|578-590|MesoMikro|ja|ja|
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Shetter, R. E., W. Junkermann, W. H. Swartz, G. Frost, J. Crawford, B. Lefer, J. D. Barrick, B. Bohn, S. R. Hall, A. Hofzumahaus, A. Bais, J. Clavert, C. Cantrell, S. Madronich, M. Müller, A. Kraus, P. S. Monks, G. D. Edwards, R. Lloyd, T. Martin, B. Gardiner, B. Mayer, G. Pfister, E. P. Roeth, A. Ruggaber, P. Koepke, H. Schwander, and M. Van Weele|2003|Photolysis Frequency of NO2: Measurement and modelling during the International Photolysis Frequency Measurement and Model Intercomparison (IPMMI)|Journal of Geophysical Research|108(D16)|-8544|Strahlung|ja|ja|
Shin, S. and R. K. Smith|2008| Tropical-cyclone intensification and predictability in a minimal three dimensional model|Quart. J. Roy Met. Soc.|134|1661-1671|MesoMikro|ja|ja|
Shin, S., R. K. Smith, and J. Callaghan|2005| Severe Thunderstorms over northeastern Queensland on 19 January 2001: The influence of an upper-level trough on the convective destabilization of the atmosphere|Aust. Meteor. Mag.|54|333-346|MesoMikro|ja|ja|
Sievering, H., G. Enders, L. Kins, G. Kramm, K. Ruoss, G. Roider, M. Zelger, L. Anderson, and R. Dlugi|1994|Nitric Acid, Particulate Nitrate, and Ammonium Profiles at the Bayerischer Wald: Evidence for large deposition rates of total nitrate|Atmospheric Environment|28|311-315|Strahlung|ja|ja|
Simmer, C., G. Adrian, S. Jones, V. Wirth, M. Göber, C. Hohenegger, T. Janjic, J. Keller, C. Ohlwein, A. Seifert, S. Trömel, T. Ulbrich, K. Wapler, M. Weissmann, J. Keller, M. Masbou, S. Meilinger, N. Riss, A. Schomburg, C. Stein, A. Vormann|2016|HErZ - The German Hans-Ertel Centre for Weather Research|Bull. Amer. Soc.|97|1057-1068.  <a href=http://journals.ametsoc.org/doi/abs/10.1175/BAMS-D-13-00227.1 target='_blank'> (link)</a>|Herz,Theorie|ja|ja|
Sirch, T., L. Bugliaro, T. Zinner, M. Möhrlein and M. Vazquez-Navarro|2017|Cloud and DNI nowcasting with MSG/SEVIRI for the optimized operation of concentrating solar power plants|Atmos. Meas. Tech.|10|409-429, doi:10.5194/amt-10-409-2017, <a href=http://www.atmos-meas-tech.net/10/409/2017/ target='_blank'> (link)</a>|Strahlung|ja|ja|
Sjoberg, J. P., T. Birner, R. H. Johnson|2017|Intraseasonal to interannual variability of Kelvin wave momentum fluxes as derived from high-resolution radiosonde data|Atmos. Chem. Phys.|||Theorie|||
Sjoberg, J. P., T. Birner|2012|Transient tropospheric forcing of sudden stratospheric warmings|J. Atmos. Sci.|||Theorie|||
Sjoberg, J. P., T. Birner|2014|Stratospheric wave-mean flow feedbacks and sudden stratospheric warmings in a simple model forced by upward wave-activity flux|J. Atmos. Sci.|||Theorie|||
Smith R. K. and M. T. Montgomery|2025|The slab boundary layer model for a translating vortex revisited|Tropical Cyclone Research and Review|14|501–513|MesoMikro|ja|ja|
Smith R. K. and M. T. Montgomery|2026|On the physical integrity of potential intensity theory|Tropical Cyclone Research and Review|15|12, in press|MesoMikro|ja|ja|
Smith R. K. and Montgomery M. T.|2015|Towards clarity on understanding tropical cyclone intensification|J. Atmos. Sci.|72|3020-3031|MesoMikro|ja|ja|
Smith R. K. and Montgomery M. T.|2016|Comments on: Nonlinear response of a tropical cyclone vortex to prescribed eyewall heating with and without surface friction in TCM4: Implications for tropical cyclone intensification, by J. Heng and Y. Wang|J. Atmos. Sci.|73|5101–5103|MesoMikro|ja|ja|
Smith R. K. and Montgomery M. T.|2016|The efficiency of diabatic heating and tropical cyclone intensification|Quart. J. Roy. Meteor. Soc.|142|2081-2086|MesoMikro|ja|ja|
Smith R. K. and S. Vogl|2008|A simple model of the hurricane boundary layer revisited|Quart. J. Roy Met. Soc.|134|337-351|MesoMikro|ja|ja|
Smith R. K.,  and T. Spengler|2011|The dynamics of heat lows over elevated terrain|Quart. J. Roy Met. Soc.|137|250-263|MesoMikro|ja|ja|
Smith R. K., G. Kilroy and M. T., Montgomery|2021|Comments on: How much does the upward advection of supergradient component of boundary-layer wind contribute to tropical cyclone intensification and maximum intensity?| J. Atmos. Sci.|77(12)|4377-4378|MesoMikro|ja|ja|
Smith R. K., M. T. Montgomery, and S. Vogl|2008| A critique of Emanuel's hurricane model and potential intensity theory|Quart. J. Roy Met. Soc.|134|551-561|MesoMikro|ja|ja|
Smith R. K., Montgomery M. T. and S. Wang|2025|Can one reconcile the classical theories and the WISHE-theories of tropical cyclone intensification?|Tropical Cyclone Research Review|14|105-118|MesoMikro|ja|ja|
Smith R. K., and M. T. Montgomery|2008|Balanced depth-averaged boundary layers used in hurricane models|Quart. J. Roy Met. Soc.|134|1385-1395|MesoMikro|ja|ja|
Smith R.K. and M.J. Reeder|2015| A review of research on the dry season mesoscale meteorology of northern Australia.|Aust. Meteor. Ocean. Journl.|(in press)||MesoMikro|ja|ja|
Smith RK and Montgomery MT|2016|Understanding hurricanes|Weather|71|219-223|MesoMikro|ja|ja|
Smith RK, J. A. Zhang and M. T. Montgomery|2017|The dynamics of intensification in an HWRF simulation of Hurricane Earl (2010)|Quart. J. Roy. Meteor. Soc.|143|293-308|MesoMikro|ja|ja|
Smith RK, Kilroy G, and Montgomery MT|2021|Tropical cyclone life cycle in a three-dimensional numerical simulation.| Quart. J. Roy. Meteor. Soc.|147|3373-3393|MesoMikro|ja|ja|
Smith RK, Montgomery MT, Kilroy G|2018|The generation of kinetic energy in tropical cyclones revisited|Quart. J. Roy. Meteor. Soc.|144|2481-2490|MesoMikro|ja|ja|
Smith, R. K. (Ed.)|1997|The physics and parameterization of moist atmospheric convection. NATO Series|Kluwer, Dortrecht||498pp |MesoMikro|ja|ja|
Smith, R. K. , G. Kilroy and M. T. Montgomery|2015|Why do model tropical cyclones intensify more rapidly at low latitudes?|J. Atmos. Sci.|72|1783-1804|MesoMikro|ja|ja|
Smith, R. K. and G. L. Thomsen|2009|Dependence of tropical-cyclone intensification on the boundary layer representation in a numerical model|Quart. J. Roy Met. Soc. |136|1671-1685|MesoMikro|ja|ja|
Smith, R. K. and J. A. Noonan|1998|On the generation of low-level mesoscale convergence lines over northeastern Australia|Mon. Wea. Rev.|126|167-185|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2010|Hurricane boundary-layer theory|Quart. J. Roy Met. Soc.|136|1665-1670|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2013|How important is the isothermal expansion effect to elevating equivalent potential temperature in the hurricane inner-core?|Quart. J. Roy Met. Soc.|138|1-5|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2014|On the existence of the logarithmic surface layer in hurricanes.|Quart. J. Roy Met. Soc.|140|72-81|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2022|Comments on: Thermodynamic characteristics of downdrafts in tropical cyclones as seen in idealized simulations of different intensities, by J. B. Wadler, D. S. Nolan, J. A. Zhang and L. K. Shay|J. Atmos. Sci.|79|2011-2012|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2022|Effective buoyancy and CAPE: some implications for tropical cyclones|Quart. J. Roy. Meteor. Soc.|148|2118-2131|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2023|Tropical cyclones: Observations and basic processes|Elsevier|pp|411|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2025| On the physics of a new time-dependent theory of tropical cyclone intensification |Tropical Cyclone Research and Review|14|297-300|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2025|Towards understanding the tropical cyclone life cycle|Tropical Cyclone Research and Review|14|119-131|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2026|On tropical cyclone fullness|Geophysical Research Letters|In press|5|MesoMikro|ja|ja|
Smith, R. K. and M. T. Montgomery|2026|The axisymmetric slab boundary layer model underpinning the boundary layer control of tropical cyclones|Tropical Cyclone Research and Review|15|148-160|MesoMikro|ja|ja|
Smith, R. K. and S. Wang|2018|Axisymmetric balance dynamics of tropical cyclone intensification: Diabatic heating versus surface friction.|Quart. J. Roy. Meteor. Soc.|144|2350-2357|MesoMikro|ja|ja|
Smith, R. K.,  M. J. Reeder, N. J. Tapper, and D. R. Christie|1995|Central Australian cold fronts|Monthly Weather Review|123|16-38|MesoMikro|ja|ja|
Smith, R. K.,  M. J. Reeder,  H. Richter, and P. May|2006| Low-level convergence lines over northeastern Australia. I. Southerly disturbances|Mon. Wea. Rev.|134|3109-3124|MesoMikro|ja|ja|
Smith, R. K.,  M. T. Montgomery and G. Thomsen|2014|Sensitivity of tropical cyclone models to the surface drag coefficient in different boundary-layer schemes|Quart. J. Roy Met. Soc.|140|792-804|MesoMikro|ja|ja|
Smith, R. K.,  M. T. Montgomery, and C. Schmidt|2011|Dynamical constraints on the intensity and size of tropical cyclones|Quart. J. Roy Met. Soc.|137|1841-1855|MesoMikro|ja|ja|
Smith, R. K., G. Garden, J. Molinari and B. R. Morton|2001| Proceedings of an International Workshop on the Dynamics and Forecasting of Tropical Weather Systems|Bull. Amer. Meteor. Soc.|82|2825-2829|MesoMikro|ja|ja|
Smith, R. K., H. C. Weber and A. Kraus|1995| On the symmetric circulation of a moving hurricane|Quart. J. Roy. Met. Soc.|121|945-952|MesoMikro|ja|ja|
Smith, R. K., M. J. Reeder,  H. Richter, and P. May|2006|Low-level convergence lines over northeastern Australia. I. Southerly disturbances|Monthly Weather Review|134|3109-3124|MesoMikro|ja|ja|
Smith, R. K., M. J. Reeder, N. J. Tapper and D. R. Christie|1995|Central Australian cold fronts|Mon. Wea. Rev.|123|16-38|MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery and H. Bui|2018|Axisymmetric balance dynamics of tropical cyclone intensification and its breakdown revisited.|J. Atmos. Sci.|75|3169-3189|MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery and J. Persing|2014|On steady state tropical cyclones|Quart. J. Roy Met. Soc.|140|2638-2146|MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery and S. Braun|2019|Azimuthally averaged structure of Hurricane Edouard (2014) just after peak intensity|Quart. J. Roy. Meteor. Soc.|145|211-216|MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery, G. Kilroy, S. Tang, and S. Müller|2015|Tropical low formation during the Australian monsoon: the events of January 2013|Aust. Meteor. Ocean. Journl.|65|318-341|MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery, and H. Zhu|2005|Buoyancy in tropical cyclone and other rapidly rotating atmospheric vortices|Dyn. Atmos. Ocean|In press||MesoMikro|ja|ja|
Smith, R. K., M. T. Montgomery, and S. V. Nguyen,|2009|Tropical cyclone spin-up revisited|Quart. J. Roy Met. Soc.|135|1321-1335|MesoMikro|ja|ja|
Smith, R. K., W. Ulrich and G. Sneddon|2000| The dynamics of vortices in vertical shear flows|Quart. J. Roy. Met. Soc.|126|2653-2670|MesoMikro|ja|ja|
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Weissmann, M., M. Göber, C. Hohenegger, T. Janjic, J. Keller, C. Ohlwein, A. Seifert, S. Trömel, T. Ulbrich, K. Wapler, C. Bollmeyer, H. Deneke|2014|Initial phase of the Hans-Ertel Centre for Weather Research – A virtual centre at the interface of basic and applied weather and climate research|Meteorologische Zeitschrift|23|193 - 208. <a href=http://www.schweizerbart.de/papers/metz/detail/23/84299/Initial_phase_of_the_Hans_Ertel_Centre_for_Weather_Research__A_virtual_centre_at_the_interface_of_basic_and_applied_weather_and_climate_research target='_blank'> (link)</a>|Herz,Theorie|ja|ja|
Weissmann, M., R. Busen, A. Dörnbrack, S. Rahm, and O. Reitebuch|2005|Targeted observations with an air-borne wind lidar|J. Atmos. Oceanic Technol.|22|1706-1719. <a href=http://journals.ametsoc.org/doi/abs/10.1175/JTECH1801.1 target='_blank'> (link)</a>|Theorie|ja|nein|
Weissmann, M., and C. Cardinali|2007|The impact of airborne Doppler lidar measurements on ECMWF forecasts|Quart. J. Meteor. Soc.|133|107-116. <a href=http://onlinelibrary.wiley.com/doi/10.1002/qj.16/abstract target='_blank'> (link)</a>|Theorie|ja|nein|
Wendisch, M., A. Keil, D. Müller, U. Wandinger, P. Wendling, A. Stifter, A. Petzold, M. Fiebig, M. Wiegner, V. Freudenthaler, W. Armbruster, W. von Hoyningen-Huene, and U. Leiterer|2002|Aerosol-radiation interaction in the cloudless atmosphere during LACE 98 1. Measured and calculated broadband solar and spectral surface insolations|Journal of Geophysical Research|107(D21), 8124|doi:10.1029/2000JD000226|Strahlung, Lidar|ja|ja|
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Wenig, M., B. Jähne, and U. Platt|2005|Operator representation as a new differential optical absorption spectroscopy formalism|Applied Optics|Vol. 44, No. 16|3246-3253|Spurengase|ja|nein|
Wenig, M., K. Pang and P.|2011|On, Arbitrarily Colored Ball Detection Using the Structure Tensor Technique, special issue on Advances in intelligent robot design for the Robocup Middle Size League|Mechatronics|21|367-372|Spurengase|ja|nein|
Wenig, M., N. Spichtinger, A. Stohl, G. Held, S. Beirle, T. Wagner, B. Jähne, and U. Platt|2003|Intercontinental transport of a power plant plume of nitrogen oxides|Atmos. Chem. Phys.|3|387-393|Spurengase|ja|nein|
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Wetzel, G., H. Oelhaf, R. Ruhnke, F. Friedl-Vallon, A. Kleinert, G. Maucher, M. Seefeldner, M. Stowasser, T. v. Clarmann, and H. Fischer|2000|Nitrogen partitioning in summer mid-latitudes and the 1997 late winter Artic vortex, measured by MIPAS-B, in Stratospheric Ozone 1999|Proc. 5th European Symposium, St. Jean de Luz, France||384-387|Strahlung|ja|ja|
Wetzel, G., H. Oelhaf, R. Ruhnke, F. Friedl-Vallon, A. Kleinert, W. Kouker, G. Maucher, M. Seefeldner, M. Stowasser, O. Trieschmann, T. v. Clarmann, and H. Fischer|2000|Nitrogen partitioning in the late winter Artic vortex and in summer mid-latitudes, measured by MIPAS-B, in Stratospheric Ozone 1999|Proc. Quadr. Ozone Symp., 3-8 July 2000, Sapporo, Japan, NASDA publ.||267-268|Strahlung|ja|ja|
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Wick, G. A., W. J. Emery, L. H. Kantha, and P. Schl&uuml;ssel|1996|The behavior of bulk-skin sea surface temperature difference under varying wind speed and heat flux|Journal of Physical Oceanography|26|1969-1988|Strahlung|ja|ja|
Wiegner, M. and A. Geiß|2012|Aerosol profiling with the JenOptik ceilometer CHM15kx|Atmos. Meas. Tech.|5|1953-1964, 2012, www.atmos-meas-tech.net/5/1953/2012/, doi:10.5194/amt-5-1953-2012|Strahlung,Lidar|ja|ja|
Wiegner, M. and J. Gasteiger|2015|Correction of water vapor absorption for aerosol remote sensing with ceilometers|Atmos. Meas. Tech.|8|3971-3984, <a href=|Strahlung,Lidar|ja|ja|
Wiegner, M.,  S. Groß, V. Freudenthaler,  F. Schnell, and J. Gasteiger |2011|The May/June 2008 Saharan Dust Event over Munich: Intensive Aerosol Parameters from Lidar Measurements|J. Geophys. Res.||doi:10.1029/2011JD016619|Strahlung,Lidar|ja|ja|
Wiegner, M., A. Ansmann, C. K&auml;hler, J. Ackermann, and U. Wandlinger|1995|Potential contribution of a backscatter lidar to climatological studies in: Lidar Techniques for Remote Sensing II, Chr. Werner, Editor|SPIE|2581|91-98|Strahlung, Lidar|ja|ja|
Wiegner, M., C. K&auml;hler, W. V&ouml;lker, J. Ackermann, A. Ansmann, and U. Wandinger|1995|Einsatzm&ouml;glichkeiten eines Weltraumlidars f&uuml;r die globale Klimadiagnostik|Ann. Meteor.|31|15-16|Strahlung, Lidar|nein|ja|
Wiegner, M., F. Madonna, I. Binietoglou, R. Forkel, J. Gasteiger, A. Geiß, G. Pappalardo, K. Schäfer, and W. Thomas|2014|What is the benefit of ceilometers for aerosol remote sensing? An answer from EARLINET|Atmos. Meas. Tech.|7, 1979-1997|doi:10.5194/amt-7-1979-2014|Strahlung,Lidar|ja|ja|
Wiegner, M., H. Quenzel, D. Rabus, W. V&ouml;lker, J. Ackermann, P. V&ouml;lger, C. K&auml;hler, G. Wildgruber, and F. Fergg|1995|Das Mehrkanal-Lidar des Meteorologischen Instituts M&uuml;nchen|Ann. Meteor.|31|281-282|Strahlung, Lidar|nein|ja|
Wiegner, M., H. Quenzel, D. Rabus, W. V&ouml;lker, P. V&ouml;lger, J. Ackermann, C. K&auml;hler, F. Fergg, and G. Wildgruber|1995|The mobile three-wavelength backscatter lidar of the Meteorological Institute of the University Munich in: Lidar and Atmospheric Sensing|SPIE|2505|2-10|Strahlung, Lidar|ja|ja|
Wiegner, M., H. Quenzel, M. Kästner, W. Renger, A. Schmitz-Pfeiffer|1989|ALEXIS-Atmospheric Lidar Experiment in Space|Annalen der Meteorologie|26|55-56|MesoMikro|ja|ja|
Wiegner, M., I. Mattis,  M. Pattantyús-Ábrahám, J. A. Bravo-Aranda, Y. Poltera, A. Haefele, M. Hervo, U. Görsdorf, R. Leinweber, J. Gasteiger, M. Haeffelin, F. Wagner, J. Cermak, K. Komínková, M. Brettle, C. Münkel, and K. Pönitz|2019|Aerosol backscatter profiles from ceilometers: validation of water vapor correction in the framework of CeiLinEx2015|Atmos. Meas. Tech.|12, 471-490|https://doi.org/10.5194/amt-12-471-2019|Strahlung,Lidar|ja|ja|
Wiegner, M., J. Ackermann, P. V&ouml;lger, and R. Hoogen|1995|Aerosol Remote Sensing with a Multi-Channel Lidar|Abstracts AAAR'95|Pittsburgh|200|Strahlung, Lidar|nein|ja|
Wiegner, M., J. B&ouml;senberg, C. B&ouml;ckmann, R. Eixmann, V. Freudenthaler, I. Mattis, and T. Trickl|1999|Lidar network to establish an aerosol climatology|J. Aerosol Sci.|30(1)|S429-S430|Strahlung, Lidar|nein|ja|
Wiegner, M., J. Gasteiger, K. Kandler, B. Weinzierl, K. Rasp, M. Esselborn, V. Freudenthaler, B. Heese, C. Toledano, M. Tesche, and D. Althausen|2009|Numerical simulations of optical properties of Saharan dust aerosols with emphasis on lidar applications|Tellus B|61|180-194|Strahlung, Lidar|ja|ja|
Wiegner, M., J. Gasteiger, S. Groß, F. Schnell, V. Freudenthaler, and R. Forkel|2012|Characterization of the Eyjafjallajökull ash-plume: Potential of lidar remote sensing|J Phys. Chem. Earth|45-46, p 79-86|doi: 10.1016/j.pce.2011.01.006|Strahlung,Lidar|ja|ja|
Wiegner, M., M. Hess, M. Kästner, B. Strauss, S. Walter und H. Quenzel|1989|Numerische Studien zur Invertierung von Lidarsignalen|Annalen der Meteorologie|26|82-83|MesoMikro|ja|ja|
Wiegner, M., P. Seifert, and P. Schl&uuml;ssel|1997|Effect of Thin Cirrus Clouds on Meteosat Second Generation (MSG) Observations|Final Report EUMETSAT|Contract No. EUM/CO/96/430/SAT|69 pp|Strahlung, Lidar|nein|ja|
Wiegner, M., P. Seifert, and P. Schl&uuml;ssel|1998|Radiative Effect of Cirrus Clouds in Meteosat Second Generation-SEVIRI Channels|J. Geophys. Res.|103(23)|217 - 230|Strahlung, Lidar|ja|ja|
Wiegner, M., P. V&ouml;lger, J. Ackermann, and R. Hoogen|1995|Fernerkundung von Aerosolpartikeln und Wolken mit Hilfe eines Mehrkanal-R&uuml;ckstreulidars|Ann. Meteor.|31|218-219|Strahlung, Lidar|nein|ja|
Wiegner, M., P. Völger, and H. Quenzel|1994|The relevance of multiple scattering for data evaluation of the Munich lidar|Proc. MUSCLE 7|Chiba|70|Strahlung,Lidar|nein|ja|
Wiegner, M., R. Hoogen, P. V&ouml;lger, and J. Ackermann|1994|Aerosol profiling by a multichannel lidar|Proc. of 3. Int. Sympos. Tropos. Profil.|Hamburg|360-362|Strahlung, Lidar|nein|ja|
Wiegner, M., S. Emeis, V. Freudenthaler, B. Heese, W. Junkermann, C. Münkel, K. Schäfer, M. Seefeldner, and S. Vogt|2006|Mixing layer height over Munich, Germany: Variability and comparisons of different methodologies|Journal of Geophysical Research|111|D13201, doi:10.1029/2005JD006593|Strahlung, Lidar|ja|ja|
Wiegner, M., U. Oppel, H. Krasting, W. Renger, C. Kiemle, and M. Wirth|1996|Cirrus measurements from a spaceborne lidar: influence of multiple scattering in: |Advances in Atmospheric Remote Sensing with Lidar|(Eds.: A. Ansmann, R. Neuber, P. Rairoux, U. Wandinger), Springer|189-192 |Strahlung, Lidar|nein|ja|
Wiegner, M., V. Freudenthaler, B. Heese, A. Ansmann, and U. Wandinger|2003|Earth Cloud and Aerosol Radiation Explorer (EarthCARE)| EarthCARE Lidar Performance Simulations Final Report|Contract No. 15040/01/NL/MM, ESTEC, Noordwijk|80 pp.|Strahlung, Lidar|ja|ja|
Wiegner, M., V. Freudenthaler, P. V&ouml;lger, J. Ackermann, D. Rabus, W. V&ouml;lker, and L. Lehmann|1998|Bestimmung von r&auml;umlichen Aerosolverteilungen mit einem R&uuml;ckstreulidar im Rahmen des Bayerischen Klimaforschungsprogramms|Ann. Meteor.|37|143-144|Strahlung, Lidar|nein|ja|
Wiegner, M., V. Freudenthaler, P. V&ouml;lger, J. Ackermann, D. Rabus, W. V&ouml;lker, and L. Lehmann|1998|Bestimmung von r&auml;umlichen Aerosolverteilungen mit einem R&uuml;ckstreulidar im Rahmen des Bayerischen Klimaforschungsprogramms|Ann. Meteor.|37|143-144|Strahlung, Lidar|nein|ja|
Wiegner, M., W. Kumpf, V. Freudenthaler, I. Stachlewska, and B. Heese|2002|Surface Aerosol Layer: Annual Cycle land Parameterization|Lidar Remote Sensing in Atmospheric and Earth Sciences|Eds.: L. Bissonnette, G. Roy and G. Vallée|321-324|Strahlung, Lidar|nein|ja|
Wiegner, M., and G. Echle|1993|A model for lidar multiple scattering|IRS'92 Current Problems in Atmospheric Radiation (S. Keevallik und O. Kärner, Hrsg.)|A. Deepak Publishing|469-472|Strahlung, Lidar|nein|ja|
Wiegner, M., and G. Echle|1993|Lidar multiple scattering: improvement of Bissonnette's paraxial approximation|Applied Optics|32|6789-6803|Strahlung, Lidar|ja|ja|
Wiegner, M., and H. Quenzel|1994|The new lidar system at Munich (Germany)|Proc. 17|ILRC, Sendai|245-247|Strahlung, Lidar|nein|ja|
Wiegner, M., and V. Freudenthaler|1998|Two Approaches to Derive Aerosol Extinction Coefficient Profiles From Backscatter Lidar Measurements|19. ILRC (Eds. U. Singh and S. Ismail), Annapolis, 1998|NASA/CP-1998-207671/PT1|127-129|Strahlung, Lidar|nein|ja|
Wiegner, M., and W. Völker|1996|Groundbased lidar measurements at Elpersbüttel as a contribution to ELITE-94|ELITE-94: The European LITE Correlative Measurement Campaign, Final Results Workshop|IROE-CNR, Florence Italy|esa wpp-107, 75-84|Strahlung, Lidar|nein|ja|
Wiegner, M.|1994|Einflu&szlig; von Aerosolpartikeln, Wolken und Kondensstreifen auf das Klima in Bayern|Klimaforschung in Bayern|Dr. Pfeil Verlag, M&uuml;nchen|105-116|Strahlung, Lidar|nein|ja|
Wiegner, M.|1995|Relevance of multiple scattering for spaceborne lidar returns|Lidar Techniques for Remote Sensing II (Ed.:Chr. Werner), SPIE|2581|137-144|Strahlung, Lidar|ja|ja|
Wiegner, M.|2004|Potential of lidars for aerosol remote sensing|Remote Sensing of Clouds and the Atmosphere VIII; Klaus P. Sch&auml;fer, Adolfo Comeron, Michel R. Carleer, Richard H. Picard; Eds., Proc. SPIE|5235|1-14|Strahlung, Lidar|ja|ja|
Wiegner, M.|2010|Potential of ceilometers for aerosol remote sensing: a preliminary assessment|Proceedings of the 25th International Laser Radar Conference, 5-9 July 2010|St.-Petersburg, Russia|914-917|Strahlung, Lidar|nein|ja|
Wilbert, S., B. Reinhardt, J. DeVore, M. Röger, R. Pitz-Paal, C. Gueymard und R. Buras|2013|Measurement of solar radiance profiles with the Sun and Aureole Measurement system (SAM)|J. Sol. Energy Engineer|135(4)|041002|Strahlung|ja|ja|
Willen, U., S. Crewell, H.K. Baltink, and O. Sievers|2005|Assessing Model Predicted Vertical Cloud Structure and Cloud Overlap with Radar and Lidar Ceilometer Observations for the Baltex Bridge Campaign of CLIWA-NET|Atmospheric Research, Special issue: CLIWA-NET: Observation and Modelling of Liquid Water Clouds|75(3)|227-255, doi:10.1016/j.atmosres.2004.12.008|Strahlung|ja|ja|
Wirth, V., and J. Egger|1999|Diagnosing extratropical synoptic-scale stratosphere-troposphere exchange: A case study|Quarterly Journal of the Royal Meteorological Society|125|635-655|Theorie|ja|ja|
Wirth, V.|1998|Thermally forced stationary axisymmetric flow on the f-plane in a nearly frictionless atmosphere|Journal of Atmospheric Science|55|3024-3041|Theorie|ja|ja|
Wirth, V.|2000|Thermal versus dynamical tropopause in upper tropospheric balanced flow anomalies|Quarterly Journal of the Royal Meteorological Society|126|299-317|Theorie|ja|ja|
Wirth, V.|2001|Cyclone-anticyclone asymmetry concerning the height of the thermal and the dynamical tropopause|Journal of Atmospheric Science|58|26-37|Theorie|ja|ja|
Wirth, V.|2001|Detection of hidden regimes in stochastic cyclostationary time series|Physical Review|64|016136(6)|Theorie|ja|ja|
Wissmeier, U., R. Buras und B. Mayer|2013| paNTICA: A fast 3D radiative transfer scheme to calculate surface solar irradiance for NWP and LES models| J. Appl. Meteorol. Clim.|52|1698–1715|Strahlung|ja|ja|
Wissmeier, U., R. K. Smith, and R. Goler,|2010|The formation of a multicell thunderstorm behind a sea breeze front|Quart. J. Roy Met. Soc.|136|2176-2188|MesoMikro|ja|ja|
Wissmeier, U., and R. K. Smith|2011|Tropical-cyclone convection: the effects of ambient vertical vorticity|Quart. J. Roy Met. Soc.|137|845-857|MesoMikro|ja|ja|
Wu, F. C., P.H. Xie, A. Li, K.L. Chan, A. Hartl, Y. Wang, F.Q. Si, Y. Zeng, M. Qin, J. Xu, J.G. Liu, W.Q. Liu,  and M. Wenig|2013|Observations of SO2 and NO2 by mobile DOAS in the Guangzhou Eastern Area during the Asian Games 2010|Atmos. Meas. Tech. Discuss.|6|261-301|Spurengase|ja|ja|
Wulfmeyer V., A. Behrendt, C. Kottmeier, U. Corsmeier, C. Barthlott, G.C. Craig, M. Hagen, D. Althausen, F. Aoshima, M. Apagaus, H.-S. Bauer, L. Bennett, A. Blyth, C. Brandau, C. Champollion, S. Crewell, G. Dick, P. Di Girolamo, M. Dorninger, Y. Dufournet, R. Eigenmann, R. Engelmann, C. Flamant, T. Foken, T. Gorgas,  M. Grzeschik, J. Handwerker, C. Hauck, H. Höller, W. Junkermann, N. Kalthoff, C. Kiemle, S. Klink, M. König, L. Krauss, C.N. Long, F. Madonna, S. Mobbs, B. Neininger, S. Pal, G. Peters, G. Pigeon, E. Richard, M.W. Rotach, H. Russchenberg, T. Schwitalla, V. Smith, R. Steinacker, J. Trentmann, D.D. Turner, J. van Baelen, S. Vogt,  H. Volkert, T. Weckwerth, H. Wernli, A. Wieser, M. Wirth|2011|The Convective and Orographically induced Precipitation Study (COPS): The scientific strategy,  the field phase, and research highlights|Quart. J. Roy. Meteor. Soc.|DOI:10.1002/qj.752||Theorie||ja|
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