• Müller, M., Homleid, M., Ivarsson, K.-I., Koltzow, M. A. Ø., Lindskog, K.-H. Midtbø, M., Andrae, U., Aspelien, T., Berggren, L., Bjørge, D., Dahlgren, P., Kristiansen, J., Randriamampianina, R., Ridal, M., Vignes, O., AROME-MetCoOp: A Nordic convective scale operational weather prediction model, early online release. 
  • Li, Z., J.-S. von Storch, and M. Müller, The M2 internal tide simulated by a 1/10° OGCM, accepted [ref]
  • Müller, M, B. Arbic, J. Richman, J. Shriver, E. Kunze, R. Scott, A. Wallcraft, L. Zamudio, Towards an internal gravity-wave spectrum in global ocean models, Geophysical Research Letters 42, 3474-3481, doi:10.1002/2015GL063365. [ref]
  • Fer, I., M. Müller , and A. K. Peterson, Tidal forcing, energetics, and mixing near the Yermak Plateau, Ocean Sci. 11, 287-304 [ref]
  • Gräwe, U., Burchard, H., Müller, M., and Schuttelaars, H., Seasonal variability in M2 and M4 tidal constituents and its implications for the coastal residual sediment transport, Geophysical Research Letters [ref]
  • Stammer, D., R.D. Ray, O.B. Andersen, B.K. Arbic, W. Bosch, L. Carrere, Y. Cheng, D.S. Chinn, B.D. Dushaw, G.D. Egbert, S.Y. Erofeeva, H.S. Fok, J.A.M. Green, S. Griffiths, M.A. King, V. Lapin, F.G. Lemoine, S.B. Luthcke, F. Lyard, J. Morison, M. Müller, L. Padman, J.G. Richman, J.F. Shriver, C.K. Shum, E. Taguchi, and Y. Yi, Accuracy assessment of global ocean tide models, Reviews of Geophysics [ref]
  • Arbic, B.K., Müller, M., Richman, J.G., Shriver, J.F., Morten, A.J., Scott, R.B., Serazin, G., and Penduff, T., Geostrophic turbulence in the frequency-wavenumber domain: Eddy-driven low-frequency variability, Journal of Physical Oceanography 44, 2050-2069,  doi:/10.1175/JPO-D-13-054.1  [ref]
  • Müller, M., J. Cherniawsky, M. Foreman, and J.-S. von Storch, Seasonal variation of the M2 tide, Ocean Dynamics 64(2), 159-177, doi:10.1007/s10236-013-0679-0 [ref]
  • Müller, M., On the space- and time-dependence of barotropic-to-baroclinic tidal energy conversion, Ocean Modelling 72, 242-252, doi:10.1016/j.ocemod.2013.09.00. [ref]
  • Skiba A. W., L. Zeng, B. K. Arbic, M. Müller, and W. J. Godwin, On the resonance and shelf/open-ocean coupling of global diurnal tides, J. Phys. Oceanogr., 43, 1301–1324,  doi:10.1175/JPO-D-12-054.1. [ref]


  • Müller, M., J. Cherniawsky, M. Foreman, and J.-S. von Storch, Global map of M2 internal tide and its seasonal variability from high resolution ocean circulation and tide modelling, Geophysical Research Letters, 39, L19607, doi:10.1029/2012GL053320. [ref]
  • Müller, M., The influence of changing stratification conditions on barotropic tidal transport and its implications for seasonal and secular changes of tides, Continental Shelf Research 47, 107-118, doi:10.1016/j.csr.2012.07.003. [ref]
  • Müller, M. (2011) Rapid change in semi-diurnal tides in the North Atlantic since 1980, Geophysical Research Letters, 38, L11602, doi:10.1029/2011GL047312. [ref]
  • Müller, M., B. K. Arbic, and J. X. Mitrovica (2011) Secular trends in ocean tides: Observations and model results, Journal Geophysical Research, 116, C05013, doi:10.1029/2010JC006387. [ref]
  • Müller, M., H. Haak, J. H. Jungclaus, J. Sündermann and M. Thomas (2010) The impact of ocean tides on a climate model simulation, Ocean Modelling 35, 304-313. [ref]
  • Hense A., Sündermann J., Drewes H., Thomas M., Chen X., Dill R., Müller M., Seitz F., Stuck J., Walter C., Winkelnkemper T. (2009) Physically consistent system model for the study of the Earth’s rotation, surface deformation and gravity field parameters, Deutsche Geodätische Kommision, Reihe B Angewandte Geodäsie, 317, Verlag der Bayerischen Akademie der Wissenschaften, ISBN 978-3-7696-8596-1. [pdf]
  • Müller, M., X. Chen, and J. Sündermann (2009) Earth rotation parameters obtained from a dynamically coupled atmosphere-hydrosphere model. In M. Soffel and N. Capitaine (eds.) Proceedings of the " "Journées 2008 Systèmes de Référence Spatio-Temporels",Lohrmann-Observatorium and Observatoire de Paris. [pdf]
  • Müller, M. (2008) Synthesis of forced oscillations, Part I: Tidal dynamics and the influence of the loading and self-attraction effect. Ocean Modelling 20, 207-222. [ref]
  • Müller, M. (2008) A large spectrum of free oscillations of the World Ocean including the full ocean loading and self-attraction effects. Hamburg Studies on Maritime Affairs, Springer Berlin, ISBN 978-3540855750. [ref]
  • Müller, M. (2008) The free oscillations of the global ocean. In Resch, M., Roller, S., Benkert, K., Galle, M., Bez, W., Kobayashi, H., Hirayama, T (ed.), High Performance Computing on Vector Systems, Springer Berlin, ISBN 978-3-540-85868-3. [ref]
  • Müller, M. (2007) The free oscillations of the world ocean in the period range 8 to 165 hours including the full loading effect. Geophysical Research Letters 34, L05606. [ref]
  • Müller, M. (2006) Barotropic free oscillations of a global ocean model including the full self-attraction and loading effect. TerraFLOPS Newsletter, 7, 4-5. [pdf]
  • Zahel, W., and Müller, M. (2005) The computation of the free barotropic oscillations of a global ocean model including friction and loading effects. Ocean Dynamics 55, 137-161. [ref