Ambravaneswaran, B., Wilkes, E. D. & Basaran, O. A.
2002
Drop formation from a capillary tube: comparison of one-dimensional and two-dimensional analyses and occurrence of satellite drops. Phys. Fluids
14 (8), 2606–2621.

Bhat, P. P., Basaran, O. A. & Pasquali, M.
2008
Dynamics of viscoelastic liquid filaments: Low capillary number flows. J. Non-Newtonian Fluid Mech.
150, 211–225.

Bogy, D. B.
1978
Use of one-dimensional Cosserat theory to study instability in a viscous liquid jet. Phys. Fluids
21 (2), 190–197.

Borkar, A. & Tsamopoulos, J.
1991
Boundary-layer analysis of the dynamics of axisymmetric capillary bridges. Phys. Fluids A
3 (12), 2866–2874.

Chen, T.-Y. & Tsamopoulos, J.
1993
Nonlinear dynamics of capillary bridges: theory. J. Fluid Mech.
255, 373–409.

Cheong, B. S. & Howes, T.
2004
Capillary jet instability under the influence of gravity. Chem. Engng Sci.
59, 2145–2157.

Dodds, S., Carvalho, M. & Kumar, S.
2011
Stretching liquid bridges with moving contact lines: The role of inertia. Phys. Fluids
23, 092101.

Eggers, J.
1997
Nonlinear dynamics and breakup of free-surface flows. Rev. Mod. Phys.
69 (3), 865–929.

Eggers, J. & Dupont, T. F.
1994
Drop formation in a one-dimensional approximation of the Navier–Stokes equation. J. Fluid Mech.
262, 205–221.

Eggers, J. & Villermaux, E.
2008
Physics of fluid jets. Rep. Prog. Phys.
71, 1–79.

Fowle, A. A., Wang, C. A. & Strong, P. F.
1979
Experiments on the stability of conical and cylindrical liquid columns at low bond numbers. In Proceedings of the Third European Symposium on Material Science in Space (ESA SP-142), pp. 317–325.

Frankel, I. & Weihs, D.
1985
Stability of a capillary jet with linearly increasing axial velocity (with application to shaped charges). J. Fluid Mech.
155, 289–307.

Gaudet, S., McKinley, G. H. & Stone, H. A.
1996
Extensional deformation of Newtonian liquid bridges. Phys. Fluids
8 (10), 2567–2579.

Gillette, R. D. & Dyson, D. C.
1970
Stability of fluid interfaces of revolution between equal solid circular plates. Chem. Engng J.
2 (1), 44–54.

Johnson, M., Kamm, R. D., Ho, L. W., Shapiro, A. & Pedley, T. J.
1991
The nonlinear growth of surface-tension-driven instabilities of a thin annular film. J. Fluid Mech.
233, 141–156.

Kroger, R., Berg, S., Delgado, A. & Rath, H. J.
1992
Stretching behavior of large polymeric and Newtonian liquid bridges in plateau simulation. J. Non-Newtonian Fluid Mech.
45 (3), 385–400.

Le Merrer, M., Seiwert, J., Quéré, D. & Clanet, C.
2008
Shapes of hanging viscous filaments. Eur. Phys. Lett.
84, 56004.

Liao, Y.-C., Franses, E. I. & Basaran, O. A.
2006
Deformation and breakup of a stretching liquid bridge covered with an insoluble surfactant monolayer. Phys. Fluids
18, 022101.

Meseguer, J.
1983
The breaking of an axisymmetric slender liquid bridge. J. Fluid Mech.
130, 123–151.

Mollot, D. J., Tsamopoulos, J., Chen, T.-Y. & Ashgriz, N.
1993
Nonlinear dynamics of capillary bridges: experiments. J. Fluid Mech.
255, 411–435.

Orr, F. M., Scriven, L. E. & Rivas, A. P.
1975
Pendular rings between solids: meniscus properties and capillary force. J. Fluid Mech.
67 (4), 723–742.

Perales, J. M. & Meseguer, J.
1992
Theoretical and experimental study of the vibration of axisymmetric viscous liquid bridges. Phys. Fluids A
4 (6), 1110–1130.

Plateau, J. A. F.
1873
Statique Expérimentale et Théorique des Liquides Soumis aux Seules Forces Moléculaires. Gauthier-Villars.

Ramos, A., Garcia, F. J. & Valverde, J. M.
1999
On the breakup of slender liquid bridges: Experiments and a 1-D numerical analysis. Eur. J. Mech. (B/*Fluids*)
18, 649–658.

Sauter, U. S. & Buggisch, H. W.
2013
Stability of initially slow viscous jets driven by gravity. J. Fluid Mech.
533, 237–257.

Slobozhanin, L. A. & Perales, J. M.
1993
Stability of liquid bridges between two equal disks in an axial gravity field. Phys. Fluids A
5 (6), 1305–1314.

Stokes, Y. M., Tuck, E. O. & Schwartz, L. W.
2000
Extensional fall of a very viscous fluid drop. Q. J. Mech. Appl. Maths
53 (4), 565–582.

Tomotika, S.
1936
Breaking up of a drop of viscous liquid immersed in another viscous fluid with is extending at a uniform rate. Proc. R. Soc. Lond. A
153 (879), 302–318.

Tsamopoulos, J., Chen, T.-Y. & Borkar, A.
1992
Viscous oscillations of capillary bridges. J. Fluid Mech.
235, 579–609.

Villermaux, E.
2012
The formation of filamentary structures from molten silicates: Pele’s hair, angel hair, and blown clinker. C. R. Mec.
340 (8), 555–564.

Zhang, X., Padgett, R. S. & Basaran, O. A.
1996
Nonlinear deformation and breakup of stretching liquid bridges. J. Fluid Mech.
329, 207–245.

Zhang, Y. & Alexander, J. I. D.
1990
Sensitivity of liquid bridges subject to axial residual acceleration. Phys. Fluids A
2, 1966–1974.