Johannes Quaas
Johannes Quaas
Professor for Theoretical Meteorology, Leipzig University
E-mail megerősítve itt: uni-leipzig.de - Kezdőlap
Hivatkozott rá
Hivatkozott rá
Aerosol indirect effects–general circulation model intercomparison and evaluation with satellite data
J Quaas, Y Ming, S Menon, T Takemura, M Wang, JE Penner, ...
Atmospheric Chemistry and Physics 9 (22), 8697-8717, 2009
Evaluating the climate and air quality impacts of short-lived pollutants
A Stohl, B Aamaas, M Amann, LH Baker, N Bellouin, TK Berntsen, ...
Atmospheric Chemistry and Physics 15 (18), 10529-10566, 2015
Bounding global aerosol radiative forcing of climate change
N Bellouin, J Quaas, E Gryspeerdt, S Kinne, P Stier, D Watson‐Parris, ...
Reviews of Geophysics 58 (1), e2019RG000660, 2020
The global aerosol-climate model ECHAM-HAM, version 2: sensitivity to improvements in process representations
K Zhang, D O'Donnell, J Kazil, P Stier, S Kinne, U Lohmann, S Ferrachat, ...
Atmospheric Chemistry and Physics 12 (19), 8911-8949, 2012
Global observations of aerosol‐cloud‐precipitation‐climate interactions
D Rosenfeld, MO Andreae, A Asmi, M Chin, G de Leeuw, DP Donovan, ...
Reviews of Geophysics 52 (4), 750-808, 2014
Satellite‐based estimate of the direct and indirect aerosol climate forcing
J Quaas, O Boucher, N Bellouin, S Kinne
Journal of Geophysical Research: Atmospheres 113 (D5), 2008
Frequency of occurrence of rain from liquid‐, mixed‐, and ice‐phase clouds derived from A‐Train satellite retrievals
J Mülmenstädt, O Sourdeval, J Delanoë, J Quaas
Geophysical Research Letters 42 (15), 6502-6509, 2015
Model intercomparison of indirect aerosol effects
JE Penner, J Quaas, T Storelvmo, T Takemura, O Boucher, H Guo, ...
Atmospheric Chemistry and Physics 6 (11), 3391-3405, 2006
Total aerosol effect: radiative forcing or radiative flux perturbation?
U Lohmann, L Rotstayn, T Storelvmo, A Jones, S Menon, J Quaas, ...
Atmospheric Chemistry and Physics 10 (7), 3235-3246, 2010
Constraining the total aerosol indirect effect in the LMDZ and ECHAM4 GCMs using MODIS satellite data
J Quaas, O Boucher, U Lohmann
Atmospheric Chemistry and Physics 6 (4), 947-955, 2006
Estimates of aerosol radiative forcing from the MACC re-analysis
N Bellouin, J Quaas, JJ Morcrette, O Boucher
Atmospheric Chemistry and Physics 13 (4), 2045-2062, 2013
Large‐eddy simulations over Germany using ICON: A comprehensive evaluation
R Heinze, A Dipankar, CC Henken, C Moseley, O Sourdeval, S Trömel, ...
Quarterly Journal of the Royal Meteorological Society 143 (702), 69-100, 2017
Aerosol nucleation and its role for clouds and Earth's radiative forcing in the aerosol-climate model ECHAM5-HAM
J Kazil, P Stier, K Zhang, J Quaas, S Kinne, D O'Donnell, S Rast, M Esch, ...
Atmospheric Chemistry and Physics 10 (22), 10733-10752, 2010
Remote sensing of droplet number concentration in warm clouds: A review of the current state of knowledge and perspectives
DP Grosvenor, O Sourdeval, P Zuidema, A Ackerman, MD Alexandrov, ...
Reviews of Geophysics 56 (2), 409-453, 2018
Future global climate: scenario-based projections and near-term information
JY Lee, J Marotzke, G Bala, L Cao, S Corti, JP Dunne, F Engelbrecht, ...
IPCC, 2021
Current model capabilities for simulating black carbon and sulfate concentrations in the Arctic atmosphere: a multi-model evaluation using a comprehensive measurement data set
S Eckhardt, B Quennehen, DJL Oliviè, TK Berntsen, R Cherian, ...
Atmospheric Chemistry and Physics 15 (16), 9413-9433, 2015
Interpreting the cloud cover–aerosol optical depth relationship found in satellite data using a general circulation model
J Quaas, B Stevens, P Stier, U Lohmann
Atmospheric Chemistry and Physics 10 (13), 6129-6135, 2010
On constraining estimates of climate sensitivity with present-day observations through model weighting
D Klocke, R Pincus, J Quaas
Journal of Climate 24 (23), 6092-6099, 2011
Global and regional trends of atmospheric sulfur
W Aas, A Mortier, V Bowersox, R Cherian, G Faluvegi, H Fagerli, J Hand, ...
Scientific reports 9 (1), 1-11, 2019
Aerosol indirect effects in POLDER satellite data and the Laboratoire de Météorologie Dynamique–Zoom (LMDZ) general circulation model
J Quaas, O Boucher, FM Bréon
Journal of Geophysical Research: Atmospheres 109 (D8), 2004
A rendszer jelenleg nem tudja elvégezni a műveletet. Próbálkozzon újra később.
Cikkek 1–20