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The coalescence cascade of a drop
1.G. E. Charles and S. G. Mason, “The mechanism of partial coalescence of liquid drops at liquid/liquid interfaces,” J. Colloid Sci. 15, 105 (1960).
2.G. E. Charles and S. G. Mason, “The coalescence of liquid drops with flat liquid/liquid interfaces,” J. Colloid Sci. 15, 236 (1960).
3.H. T. Ochs III, K. V. Beard, R. R. Czys, N. F. Laird, D. E. Schaufelberger, and D. J. Holdridge, “Collisions between small precipitation drops. Part I: Laboratory measurements of bounce, coalescence and temporary coalescence,” J. Atmos. Sci. 52, 2258 (1995).
4.O. W. Jayaratne and B. J. Mason, “The coalescence and bouncing of water drops at an air/water interface,” Proc. R. Soc. London, Ser. A 280, 545 (1964).
5.B. Ching, M. W. Golay, and T. J. Johnson, “Droplet impacts upon liquid surfaces,” Science 226, 535 (1984).
6.A. V. Anilkumar, C. P. Lee, and T. G. Wang, “Surface-tension-induced mixing following coalescence of initially stationary drops,” Phys. Fluids A 3, 2587 (1991).
7.J. J. Thomson and H. F. Newall, “On the formation of vortex rings by drops falling into liquids, and some allied phenomena,” Proc. R. Soc. London 39, 417 (1885).
8.P. N. Shankar and M. Kumar, “Vortex rings generated by drops just coalescing with a pool,” Phys. Fluids 7, 737 (1995).
9.M. Hsiao, S. Lichter, and L. G. Quintero, “The critical Weber number for vortex and jet formation for drops impinging on a liquid pool,” Phys. Fluids 31, 3560 (1988).
10.B. Peck and L. Sigurdson, “The three dimensional vortex structure of an impacting water drop,” Phys. Fluids 6, 564 (1994).
11.B. S. Dooley, A. E. Warncke, M. Gharib, and G. Tryggvason, “Vortex ring generation due to the coalescence of a water drop at a free surface,” Exp. Fluids 22, 369 (1997).
12.F. Rodriguez and R. Mesler, “The penetration of drop-formed vortex rings into pools of liquid,” J. Colloid Interface Sci. 121, 121 (1988).
13.T. Etoh, “High-speed video camera of 4500 pps,” Journal of the Institute of the Television Society of Japan 46, 543 (1992) in Japanese.
14.T. Etoh and K. Takehara, “Ultra high-speed multiframing camera with an automatic trigger,” SPIE 1757, 53 (1993).
15.J. Eggers and T. F. Dupont, “Drop formation in a one-dimensional approximation of the Navier–Stokes equations,” J. Fluid Mech. 262, 205 (1994).
16.X. D. Shi, M. P. Brenner, and S. R. Nagel, “A cascade of structure in a drop falling from a faucet,” Science 265, 219 (1994).
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