A Lagrangian climatology of wintertime cold air outbreaks in the Irminger and Nordic Seas and their role in shaping air–sea heat fluxes L Papritz, T Spengler Journal of Climate 30 (8), 2717-2737, 2017 | 124 | 2017 |
A climatology of cold air outbreaks and their impact on air–sea heat fluxes in the high-latitude South Pacific L Papritz, S Pfahl, H Sodemann, H Wernli Journal of Climate 28 (1), 342-364, 2015 | 120 | 2015 |
Role of polar anticyclones and mid-latitude cyclones for Arctic summertime sea-ice melting H Wernli, L Papritz Nature Geoscience 11 (2), 108-113, 2018 | 103 | 2018 |
Warm conveyor belts in idealized moist baroclinic wave simulations S Schemm, H Wernli, L Papritz Journal of the Atmospheric Sciences 70 (2), 627-652, 2013 | 101 | 2013 |
The role of extratropical cyclones and fronts for Southern Ocean freshwater fluxes L Papritz, S Pfahl, I Rudeva, I Simmonds, H Sodemann, H Wernli Journal of Climate 27 (16), 6205-6224, 2014 | 82 | 2014 |
The role of North Atlantic–European weather regimes in the surface impact of sudden stratospheric warming events DIV Domeisen, CM Grams, L Papritz Weather and Climate Dynamics 1 (2), 373-388, 2020 | 81 | 2020 |
Ocean convection linked to the recent ice edge retreat along east Greenland K Våge, L Papritz, L Håvik, MA Spall, GWK Moore Nature communications 9 (1), 1287, 2018 | 81 | 2018 |
Arctic lower-tropospheric warm and cold extremes: Horizontal and vertical transport, diabatic processes, and linkage to synoptic circulation features L Papritz Journal of Climate 33 (3), 993-1016, 2020 | 65 | 2020 |
Atmospheric response to mesoscale sea surface temperature anomalies: Assessment of mechanisms and coupling strength in a high-resolution coupled model over the South Atlantic D Byrne, L Papritz, I Frenger, M Münnich, N Gruber Journal of the Atmospheric Sciences 72 (5), 1872-1890, 2015 | 64 | 2015 |
Quantifying the physical processes leading to atmospheric hot extremes at a global scale M Röthlisberger, L Papritz Nature Geoscience 16 (3), 210-216, 2023 | 62 | 2023 |
Analysis of the slope of isentropic surfaces and its tendencies over the North Atlantic L Papritz, T Spengler Quarterly Journal of the Royal Meteorological Society 141 (693), 3226-3238, 2015 | 54 | 2015 |
A climatology of strong large-scale ocean evaporation events. Part I: Identification, global distribution, and associated climate conditions F Aemisegger, L Papritz Journal of Climate 31 (18), 7287-7312, 2018 | 44 | 2018 |
Dynamics of concurrent and sequential Central European and Scandinavian heatwaves C Spensberger, E Madonna, M Boettcher, CM Grams, L Papritz, ... Quarterly Journal of the Royal Meteorological Society 146 (732), 2998-3013, 2020 | 42 | 2020 |
The iceland greenland seas project IA Renfrew, RS Pickart, K Våge, GWK Moore, TJ Bracegirdle, AD Elvidge, ... Bulletin of the American Meteorological Society 100 (9), 1795-1817, 2019 | 37 | 2019 |
Sources and transport pathways of precipitating waters in cold-season deep North Atlantic cyclones L Papritz, F Aemisegger, H Wernli Journal of the Atmospheric Sciences 78 (10), 3349-3368, 2021 | 35 | 2021 |
Linking low‐frequency large‐scale circulation patterns to cold air outbreak formation in the northeastern North Atlantic L Papritz, CM Grams Geophysical Research Letters 45 (5), 2542-2553, 2018 | 35 | 2018 |
What configuration of the atmospheric circulation drives extreme net and total moisture transport into the Arctic L Papritz, E Dunn‐Sigouin Geophysical Research Letters 47 (17), e2020GL089769, 2020 | 31 | 2020 |
Characterizing the local and intense water cycle during a cold air outbreak in the Nordic seas L Papritz, H Sodemann Monthly Weather Review 146 (11), 3567-3588, 2018 | 29 | 2018 |
Stratospheric influence on North Atlantic marine cold air outbreaks following sudden stratospheric warming events H Afargan-Gerstman, I Polkova, L Papritz, P Ruggieri, MP King, ... Weather and Climate Dynamics 1 (2), 541, 2020 | 28 | 2020 |
A Lagrangian analysis of the dynamical and thermodynamic drivers of large-scale Greenland melt events during 1979–2017 M Hermann, L Papritz, H Wernli Weather and Climate Dynamics 1 (2), 497-518, 2020 | 26 | 2020 |