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L.B. Lucy, A Numerical Approach to the Testing of the Fission Hypothesis, The Astronomical Journal, 82, 1977, 1013-1024.
R.A. Gingold and J.J. Monaghan, Smoothed Particle Hydrodynamics: Theory and Application to Non-spherical Stars, The Astronomical Journal, 181, 1977, 375-389.
L.D.Libersky, A.G. Petschek, , T.C. Carney, J.R. Hipp, and F.A. Allahdadi, High Strain Lagrangian Hydrodynamics, Journal of Computational Physics, 109,1993, 67-75.
P.W. Cleary and J.J. Monaghan, Conduction Modeling Using Smoothed Particle Hydrodynamics, Journal of Computational Physics, 148, 1999, 227-264.
J.J. Monaghan, Simulating Free Surface Flows with SPH, Journal of Computational Physics, 110, 1994, 399-406.
J.P. Morris, P.J. Fox, and Y. Zhu, Modeling Low Reynolds Number Incompressible Flows Using SPH, Journal of Computational Physics, 136, 1995, 214-226.
J.J. Monaghan, Heat Conduction With Discontinuous Conductivity, Applied Mathematics Reports and Preprints, Monash University (1995).
N. Okahci, A. Hirota, S. Izawa, Y. Fukunishi, and H. Higuchi, SPH Simulation of Pulsating Pipe Flow at a Junction, Proceedings of 1st International Symposium on Advanced Fluid Information, 2001, 388-391.
T. Nemoto, S. Izawa, A.X. Xiong., and Y. Fukunishi, SPH Method Simulation of the Flow with Heat Convection, Proceedings of JSME Tohoku Section Honjyo Conference, 041(2), 2004, 85-86. (in Japanese)
T. Sano, S. Izawa, A.X. Xiong., and Y. Fukunishi, The Numerical Simulation of Flow which Has Free Surface and Deformation Boundary by SPH Method for Incompressible Fluid, Proceedings of 83th JSME Fluids Engineering Conference, 2005, CD-ROM. (in Japanese)
H. Stommel, A.B Arons, and D. Blanchard, An oceanographic curiosity: the perpetual salt fountain, Deep-Sea Research, 3, 1956, 152-153.
J.S. Turner and H. Stommel, A new case of convection in the presence of combined vertical salinity and temperature gradients, Proceeding of National Academy of Science, U. S. A., 52, 1964, 49-53.
J.S. Turner, Salt fingers across a density interface, Deep-Sea Research, 14, 1967, 599-611.
H.E. Huppert and J.S. Turner, Double-diffusive convection, Journal of Fluid Mechanics, 106, 1981, 299-329.
J.R. Taylor and G. Veronis, Experiments on Double-Diffusive Sugar-Salt Fingers at High Stability Ratio, Journal of Fluid Mechanics, 321, 1996, 315-333.
R.W. Schmitt, Observational and laboratory insights into salt-finger convection, Progress in Oceanography, 2003, doi:10.1016/S0079-6611(03)00033-8.
M.E. Stern, The ‘salt-fountain’ and thermohaline convection, Tellus, 12, 1960, 172-175.
E. Kunze, A review of salt-fingering theory, Progress in Oceanography, 2003, doi:10.1016/S0079-6611(03)00027-2.
S.A. Piacsek and J. Toomre, Nonlinear evolution and structure of salt fingers, Nihoul, J.C.J. Ed. Marine Turbulence: Proceedings of the 11th International Liège Colloquium on Ocean Hydrodynamics. Elsevier Oceanography Series, 28, 1980,193-219.
T.M. Özgökmen, O.E. Esenkov, and D.B. Olson, A numerical study of layer formation due to fingers in doublediffusive convection in a vertically-bounded domain, Journal of Marine Research, 56, 1998, 463-487.
Y. Suenaga, S. Komurasaki, and T. Kawamura, Thermal Convection in salty stratified fluid, Proceedings of 2004 Meeting of Japan Society of Fluid Mechanics, 2004, D233. (in Japanese)
S. Komurasaki, K. Kuwahara, and T. Kawamura, Simulation of a Double Diffusive Convection for Salt Fingers and Formation of Uniform-Density Layer, Proceedings of 46th AIAA Aerospace Sciences Meeting and Exhibit, 2008, 575 (8 pages).
A.B. Tsinober, A. Yahalom, and D.J. Shlien, A Point Source of Heat In a Stable Salinity Gradient, Journal of Fluid Mechanics, 135, 1983, 199-217.
Y. Suenaga, T. Kawamura, and S. Komurasaki, Numerical study of thermal convection above the point heat source in a salinity gradient, Abstract book of 57th Annual Meeting of the Division of Fluid Dynamics, American Physical Society, 2004, #NE.007.
J.J. Monaghan and J.C. Lattanzio, A Refined Particle Method for Astrophysical Problems, Astronomy and astrophysics, 149, 1985, 135-143.

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International Journal of Emerging Multidisciplinary Fluid Sciences

International Journal of Emerging Multidisciplinary Fluid Sciences

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