| Consistency and discrepancy in the atmospheric response to Arctic sea-ice loss across climate models JA Screen, C Deser, DM Smith, X Zhang, R Blackport, PJ Kushner, ... Nature Geoscience 11 (3), 155-163, 2018 | 356 | 2018 |
| The role of ocean–atmosphere coupling in the zonal-mean atmospheric response to Arctic sea ice loss C Deser, RA Tomas, L Sun Journal of Climate 28 (6), 2168-2186, 2015 | 333 | 2015 |
| What caused the recent “Warm Arctic, Cold Continents” trend pattern in winter temperatures? L Sun, J Perlwitz, M Hoerling Geophysical Research Letters 43 (10), 5345-5352, 2016 | 303 | 2016 |
| Mechanisms of stratospheric and tropospheric circulation response to projected Arctic sea ice loss L Sun, C Deser, RA Tomas Journal of Climate 28 (19), 7824-7845, 2015 | 286 | 2015 |
| Evolution of the global coupled climate response to Arctic sea ice loss during 1990–2090 and its contribution to climate change L Sun, M Alexander, C Deser Journal of Climate 31 (19), 7823-7843, 2018 | 177 | 2018 |
| Does ocean coupling matter for the northern extratropical response to projected Arctic sea ice loss? C Deser, L Sun, RA Tomas, J Screen Geophysical Research Letters 43 (5), 2149-2157, 2016 | 173 | 2016 |
| Initialized Earth System prediction from subseasonal to decadal timescales GA Meehl, JH Richter, H Teng, A Capotondi, K Cobb, F Doblas-Reyes, ... Nature Reviews Earth & Environment 2 (5), 340-357, 2021 | 171 | 2021 |
| Robust but weak winter atmospheric circulation response to future Arctic sea ice loss DM Smith, R Eade, MB Andrews, H Ayres, A Clark, S Chripko, C Deser, ... Nature communications 13 (1), 727, 2022 | 146 | 2022 |
| Reduced risk of North American cold extremes due to continued Arctic sea ice loss JA Screen, C Deser, L Sun Bulletin of the American Meteorological Society 96 (9), 1489-1503, 2015 | 141 | 2015 |
| The role of ocean heat transport in the global climate response to projected Arctic sea ice loss RA Tomas, C Deser, L Sun Journal of Climate 29 (19), 6841-6859, 2016 | 136 | 2016 |
| Tropical climate responses to projected Arctic and Antarctic sea-ice loss MR England, LM Polvani, L Sun, C Deser Nature Geoscience 13 (4), 275-281, 2020 | 129 | 2020 |
| Distinguishing stratospheric sudden warmings from ENSO as key drivers of wintertime climate variability over the North Atlantic and Eurasia LM Polvani, L Sun, AH Butler, JH Richter, C Deser Journal of Climate 30 (6), 1959-1969, 2017 | 106 | 2017 |
| Projected changes in regional climate extremes arising from Arctic sea ice loss JA Screen, C Deser, L Sun Environmental Research Letters 10 (8), 084006, 2015 | 96 | 2015 |
| Contrasting the Antarctic and Arctic atmospheric responses to projected sea ice loss in the late twenty-first century M England, L Polvani, L Sun Journal of Climate 31 (16), 6353-6370, 2018 | 70 | 2018 |
| Sensitivities and mechanisms of the zonal mean atmospheric circulation response to tropical warming L Sun, G Chen, J Lu Journal of the Atmospheric Sciences 70 (8), 2487-2504, 2013 | 68 | 2013 |
| The role of synoptic eddies in the tropospheric response to stratospheric variability DIV Domeisen, L Sun, G Chen Geophysical research letters 40 (18), 4933-4937, 2013 | 67 | 2013 |
| Fast response of the tropics to an abrupt loss of Arctic sea ice via ocean dynamics K Wang, C Deser, L Sun, RA Tomas Geophysical Research Letters 45 (9), 4264-4272, 2018 | 65 | 2018 |
| The role of subtropical irreversible PV mixing in the zonal mean circulation response to global warming–like thermal forcing J Lu, L Sun, Y Wu, G Chen Journal of Climate 27 (6), 2297-2316, 2014 | 58 | 2014 |
| Effects of stratospheric variability on El Niño teleconnections JH Richter, C Deser, L Sun Environmental Research Letters 10 (12), 124021, 2015 | 49 | 2015 |
| The role of stratospheric polar vortex breakdown in Southern Hemisphere climate trends L Sun, G Chen, WA Robinson Journal of the Atmospheric Sciences 71 (7), 2335-2353, 2014 | 49 | 2014 |
