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Born, Andreas; Imhof, Michael A.; Stocker, Thomas F. (2019). An efficient surface energy–mass balance model for snow and ice. The Cryosphere, 13(5), pp. 1529-1546. Copernicus Publications 10.5194/tc-13-1529-2019
Jensen, Mari F.; Nummelin, Aleksi; Nielsen, Søren B.; Sadatzki, Henrik; Sessford, Evangeline; Risebrobakken, Bjørg; Andersson, Carin; Voelker, Antje; Roberts, William H. G.; Pedro, Joel; Born, Andreas (2018). A spatiotemporal reconstruction of sea-surface temperatures in the North Atlantic during Dansgaard–Oeschger events 5–8. Climate of the past, 14(6), pp. 901-922. Copernicus Publications 10.5194/cp-14-901-2018
Plach, Andreas; Nisancioglu, Kerim H.; Le clec'h, Sébastien; Born, Andreas; Langebroek, Petra M.; Guo, Chuncheng; Imhof, Michael; Stocker, Thomas F. (2018). Eemian Greenland SMB strongly sensitive to model choice. Climate of the past, 14(10), pp. 1463-1485. Copernicus Publications 10.5194/cp-14-1463-2018
Neff, Basil; Born, Andreas; Stocker, Thomas (2016). An ice sheet model of reduced complexity for paleoclimate studies. Earth system dynamics, 7(2), pp. 397-418. Copernicus Publications 10.5194/esd-7-397-2016
Born, Andreas; Stocker, Thomas; Sandø, Anne Britt (2016). Transport of salt and freshwater in the Atlantic Subpolar Gyre. Ocean Dynamics, 66(9), pp. 1051-1064. Springer 10.1007/s10236-016-0970-y
Merz, Niklaus; Born, Andreas; Raible, Christoph; Stocker, Thomas F. (2016). Warm Greenland during the last interglacial: the role of regional changes in sea ice cover. Climate of the past, 12(10), pp. 2011-2031. Copernicus Publications 10.5194/cp-12-2011-2016
Born, Andreas (2016). Tracer transport in an isochronal ice-sheet model. Journal of glaciology, 63(237), pp. 1-17. International Glaciological Society 10.1017/jog.2016.111
Born, Andreas; Mignot, Juliette; Stocker, Thomas F. (2015). Multiple Equilibria as a Possible Mechanism for Decadal Variability in the North Atlantic Ocean. Journal of Climate, 28(22), pp. 8907-8922. American Meteorological Society 10.1175/JCLI-D-14-00813.1
Born, Andreas; Stocker, Thomas F. (2014). Two Stable Equilibria of the Atlantic Subpolar Gyre. Journal of Physical Oceanography, 44(1), pp. 246-264. American Meteorological Society 10.1175/JPO-D-13-073.1
Moffa-Sánchez, Paola; Born, Andreas; Hall, Ian R.; Thornalley, David J. R.; Barker, Stephen (2014). Solar forcing of North Atlantic surface temperature and salinity over the past millennium. Nature geoscience, 7(4), pp. 275-278. Nature Publishing Group 10.1038/ngeo2094
Merz, Niklaus; Born, Andreas; Raible, Christoph; Fischer, Hubertus; Stocker, Thomas (2014). Dependence of Eemian Greenland temperature reconstructions on the ice sheet topography. Climate of the past, 10(3), pp. 1221-1238. Copernicus Publications 10.5194/cp-10-1221-2014
Born, Andreas; Stocker, Thomas; Raible, Christoph; Levermann, A. (2013). Is the Atlantic subpolar gyre bistable in comprehensive coupled climate models? Climate dynamics, 40(11-12), pp. 2993-3007. Springer-Verlag 10.1007/s00382-012-1525-7
Lehner, Flavio; Born, Andreas; Raible, Christoph; Stocker, Thomas (2013). Amplified inception of European Little Ice Age by sea ice-ocean-atmosphere feedbacks. Journal of Climate, 26(19), pp. 7586-7602. American Meteorological Society 10.1175/JCLI-D-12-00690.1
Born, Andreas; Stocker, Thomas; Sandø, A. B. (2013). Coupling of eastern and western subpolar North Atlantic: salt transport in the Irminger Current. Ocean Science Discussions, 10(2), pp. 555-579. Copernicus 10.5194/osd-10-555-2013
Born, Andreas; Mignot, Juliette (2012). Dynamics of decadal variability in the Atlantic subpolar gyre: a stochastically forced oscillator. Climate dynamics, 39(1-2), pp. 461-474. Heidelberg: Springer-Verlag 10.1007/s00382-011-1180-4
Born, Andreas; Nisancioglu, K.H. (2012). Melting of Northern Greenland during the last interglaciation. The Cryosphere, 6(6), pp. 1239-1250. Göttingen: Copernicus Publications 10.5194/tc-6-1239-2012
Mengel, M.; Levermann, A.; Schleussner, C.-F.; Born, Andreas (2012). Enhanced Atlantic subpolar gyre variability through baroclinic threshold in a coarse resolution model. Earth system dynamics, 3(2), pp. 189-197. Katlenburg-Lindau: Copernicus Publications 10.5194/esd-3-189-2012