Law A W K, Wang H W. Measurements of mixing processes using Combined DPIV and PLIF[J]. Journal of Experimental Thermal and Fluid Science, 2000. 22(3-4):213-229.
[2]
Smith P C. A stream tube model for bottom boundary currents in the ocean[J]. Deep-Sea Res, 1975, 22:853-973.
[3]
Killworth P D. Mixing on the Weddle Sea continental slope[J]. Deep-Sea Res, 1977, 24:427-488.
[4]
Huppert H E, Bryan K. Topographically generated eddies[J]. Deep-Sea Res, 1976, 23: 655-679.
[5]
Griffiths R W, Killworth P D, Stem M E. Ageostrophic instability of ocean currents[J].J Fluid Mech, 1982, 117:343-377.
[6]
Smith P C. Experiments with viscous source flows in rotating systems[J]. Dyn Atmos Oceans, 1977, 1:241-272.
[7]
Swaters G E. On the baroclinic instability of cold-core coupled density fronts On a sloping continental shelf[J]. J Fluid Mech, 1991,224:361-382.
[8]
Etling D, Gelhardt F, Schrader U, et al. Experiments with density currents on a sloping bottom on a rotating fluid[J]. Dyn Atmos Oceans, 2000, 31:139-164.
[9]
Morel Y, McWillians J. Effects of isopycnal and diapycnal mixing on the stability of oceanic currents[J]. J Phys Oceanogr, 2001, 31:2 280-2 296.
[10]
Jungclaus J H, Backhaus J O. Application of a transient reduced gravity plume model to the Denmark Strait Overflow[J]. J Geophys Res, 1994, 99(C6):12 375-12 396.
[11]
Shapiro G I, Hill A E. Dynamics of dense water cascade at the shelf edge [J]. J Phys Oceanogr, 1997, 27:2 381-2 394.
[12]
Gawakiewicz G, Chapman D C. A numerical study of dense water formation and transport on a shallow sloping continental shelf[J]. J Geophys Res, 1995, 100:4 489-4 507.
[13]
Jiang L, Garwood Jr R W. A numerical study of three dimensional bottom plumes on a southern ocean continental slope[J]. J Geophys Res, 1995, 100(C9):18 471-18 488.
[14]
Ozgokmen T M, Chassignet E P. Dynamics of two-dimensional bottom gravity currents[J]. J Phys Oceanogr, 2002, 32:1 460-1 478.
