1) Özgökmen, T.M., P.F. Fischer, J. Duan and T. Iliescu, 2004: Entrainment in bottom gravity currents over complex topography from three-dimensional nonhydrostatic simulations. Geophys. Res. Letters, 31, L13212, doi:10.1029/2004GL020186.

2) Özgökmen, T.M., P.F. Fischer, J. Duan and T. Iliescu, 2004: Three-dimensional turbulent bottom density currents from a high-order nonhydrostatic spectral element model. J. Phys. Oceanogr., 34/9, 2006-2026.

3) Özgökmen, T.M., P.F. Fischer, and W.E. Johns: Product water mass formation by turbulent density currents from a high-order nonhydrostatic spectral element model. Ocean Modelling, accepted (19 May 2005).

4) Chang, Y.S., X. Xu, T.M. Özgökmen, E.P. Chassignet, H. Peters and P.F. Fischer, 2005: Comparison of gravity current mixing parameterizations and calibration using a high-resolution 3D nonhydrostatic spectral element model. Ocean Modelling, 10, 342-368.

5) Xu, X., Chang, Y.S., H. Peters, T.M. Özgökmen, and E.P. Chassignet: Parameterization of gravity current entrainment for ocean circulation models using a high-order 3D nonhydrostatic spectral element model. Ocean Modelling, submitted (18 July 2005).