[1] Rayleigh L. On the instability of jets[J]. Proc London Math Soc, 1879, s1-10(1): 4-13.
[2] Rayleigh L. On the stability, or instability, of certain fluid motions[J]. Proc London Math Soc, 1879, s1-11(1): 57-72.
[3] Leib S J, Goldstein M E. The generation of capillary instabilities on a liquid jet[J]. J Fluid Mech, 1986, 168: 479-500.
[4] Eggers J. Nonlinear dynamics and breakup of free-surface flow[J]. Rev Mod Phys, 1997, 69(3): 865-929.
[8] Dendukuri D, Doyle P S. The synthesis and assembly of polymeric microparticles using microfluidics[J]. Adv Mater, 2009, 21(41): 4071-4086.
[9] Shabahang S, Kaufman J J, Deng D S, et al. Observation of Plateau-Rayleigh capillary instability in multi-material optical fibers[J]. Appl Phys Lett, 2011, 99(16): 161909.
[10] Kaufman J J, Tao G M, Shabahang S, et al. Structured spheres generated by an in-fibre fluid instability[J]. Nature, 2012, 487: 463-467.
[11] Rayleigh L. The form of standing waves on the surface of a running stream[J]. Proc Lond Math Soc, 1883, s1-15(1): 69-78.
[12] Wada Y. On the steady surface ripples of a cylindrical flow[J]. J Phys Soc Jpn, 1950, 5: 259-262.
[13] Gong Xinya, Zhang Yu, Zhang Yongzhan, et al. Capillary waves on vertical jets impinging upon different types of liquid surfaces[J]. Research and Exploration in Laboratory, 2015, 34(2): 29-33.
[14] Awati K M, Howes T. Stationary waves on cylindrical fluid jets[J]. Am J Phys, 1996, 64(6): 808-811.
[15] Hancock M J, Bush J W M. Fluid pipes[J]. J Fluid Mech, 2002, 466: 285-304.
[16] Watson E J. The radial spread of a liquid jet over a horizontal plane[J]. J Fluid Mech, 1964, 20(3): 481-499.