Auflistung nach Mitwirkenden "Korn, P."

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    • ICON‐O: The Ocean Component of the ICON Earth System Model—Global Simulation Characteristics and Local Telescoping Capability 

      Korn, P.ORCIDiD; Brüggemann, N.ORCIDiD; Jungclaus, J. H.ORCIDiD; Lorenz, S. J.; Gutjahr, O.ORCIDiD; Haak, H.ORCIDiD; Linardakis, L.; Mehlmann, C.ORCIDiD; Mikolajewicz, U.; Notz, D.ORCIDiD; Putrasahan, D. A.ORCIDiD; Singh, V.; von Storch, J.‐S.ORCIDiD; Zhu, X.; Marotzke, J.ORCIDiD (Journal of Advances in Modeling Earth Systems, 2022-10-06)
      We describe the ocean general circulation model Icosahedral Nonhydrostatic Weather and Climate Model (ICON‐O) of the Max Planck Institute for Meteorology, which forms the ocean‐sea ice component of the Earth system model ...

    • Seamless Integration of the Coastal Ocean in Global Marine Carbon Cycle Modeling 

      Mathis, M.ORCIDiD; Logemann, K.ORCIDiD; Maerz, J.; Lacroix, F.; Hagemann, S.; Chegini, F.; Ramme, L.; Ilyina, T.ORCIDiD; Korn, P.ORCIDiD; Schrum, C. (Journal of Advances in Modeling Earth Systems, 2022-08-26)
      We present the first global ocean‐biogeochemistry model that uses a telescoping high resolution for an improved representation of coastal carbon dynamics: ICON‐Coast. Based on the unstructured triangular grid topology of ...

    • Simulating Linear Kinematic Features in Viscous‐Plastic Sea Ice Models on Quadrilateral and Triangular Grids With Different Variable Staggering 

      Mehlmann, C.ORCIDiD; Danilov, S.ORCIDiD; Losch, M.ORCIDiD; Lemieux, J. F.ORCIDiD; Hutter, N.ORCIDiD; Richter, T.ORCIDiD; Blain, P.; Hunke, E. C.ORCIDiD; Korn, P.ORCIDiD (Journal of Advances in Modeling Earth Systems, 2021-10-28)
      Observations in polar regions show that sea ice deformations are often narrow linear features. These long bands of deformations are referred to as Linear Kinematic Features (LKFs). Viscous‐plastic sea ice models have the ...

    • The ICON Earth System Model Version 1.0 

      Jungclaus, J. H.ORCIDiD; Lorenz, S. J.; Schmidt, H.ORCIDiD; Brovkin, V.ORCIDiD; Brüggemann, N.ORCIDiD; Chegini, F.; Crüger, T.ORCIDiD; De‐Vrese, P.; Gayler, V.; Giorgetta, M. A.ORCIDiD; Gutjahr, O.ORCIDiD; Haak, H.ORCIDiD; Hagemann, S.; Hanke, M.; Ilyina, T.ORCIDiD; Korn, P.ORCIDiD; Kröger, J.; Linardakis, L.; Mehlmann, C.ORCIDiD; Mikolajewicz, U.; Müller, W. A.ORCIDiD; Nabel, J. E. M. S.ORCIDiD; Notz, D.ORCIDiD; Pohlmann, H.ORCIDiD; Putrasahan, D. A.ORCIDiD; Raddatz, T.; Ramme, L.; Redler, R.; Reick, C. H.; Riddick, T.; Sam, T.; Schneck, R.ORCIDiD; Schnur, R.ORCIDiD; Schupfner, M.; von Storch, J.‐S.ORCIDiD; Wachsmann, F.ORCIDiD; Wieners, K.‐H.ORCIDiD; Ziemen, F.ORCIDiD; Stevens, B.ORCIDiD; Marotzke, J.ORCIDiD; Claussen, M.ORCIDiD (Journal of Advances in Modeling Earth Systems, 2022-04-09)
      This work documents the ICON‐Earth System Model (ICON‐ESM V1.0), the first coupled model based on the ICON (ICOsahedral Non‐hydrostatic) framework with its unstructured, icosahedral grid concept. The ICON‐A atmosphere uses ...