PUBLICATIONS

Our book:

• Hardback: ISBN 9781107098411
• Paperback: ISBN 9781107485495

Review papers:

1. J. Eggers, J.E. Sprittles, and J.H.Snoeijer, Coalescence Dynamics, Annu. Rev. Fluid Mech. ??,??? (2024)

2. S. S. Datta et al., Perspectives on viscoelastic flow instabilities and elastic turbulence, Phys. Rev. Fluids 7,080701 (2022)

3. J.H. Snoeijer, A. Pandey, M.A. Herrada, and J. Eggers, The relationship between viscoelasticity and elasticity, Proc. R. Soc. A 476 , 20200419 (2020)

4. J. Eggers. The role of singularities in hydrodynamics, Phys. Rev. Fluids 3 , 110503 (2018)

5. J. Eggers, N. Suramlishvili. Singularity theory of plane curves and its applications, Eur. J. Mech. B 65 , 107 (2017)

6. J. Eggers, M. A. Fontelos. Cusps in interfacial problems, Panoramas et Synthèses 38 , 69 (2012)

7. D. Bonn, J. Eggers, J. Indekeu, J. Meunier, E. Rolley. Wetting and spreading, Rev. Mod. Phys. 81 , 739 (2009)

8. J. Eggers, M. A. Fontelos. The role of self-similarity in singularities of PDE's, Nonlinearity 22 , R1 (2009)
9. J. Eggers, E. Villermaux. Physics of liquid jets, Rep. Prog. Phys. 71 , 036601 (2008)

10. J. Eggers. Drop formation - an overview, ZAMM 85 , 400 (2005)
11. J. Eggers. Breakup and colaescence of free-surface flow, book chapter contributed to "Handbook of materials modeling", S. Yip, Editor, Springer, p. 1403 (2005)

12. J. Eggers. Hydrodynamic Singularities. in: J. Parisi, S. C. Mueller, and W. Zimmermann (eds.), A Perspective Look at Nonlinear Media in Physics , Chemistry, and Biology, Springer, p. 305 (1998)
13. J. Eggers. Nonlinear dynamics and breakup of free-surface flows. Rev. Mod. Phys. 69, 865 (1997)

Drops, Cusps, and Bubbles:

14. M. Rubio, J.M. Montanero, J. Eggers, M.A. Herrada. Stable production of fluid jets with vanishing diameters via tip streaming , J. Fluid Mech. 983, A4 (2024)
15. J. Eggers. Viscous free surface cusps - local solution, Phys. Rev. Fluids 8, 124001 (2023)
16. M.A. Herrada, J. Eggers. Path instability of an air bubble rising in water, PNAS 120, e2216830120 (2023)
17. L. Duchemin, J. Eggers. MARS: a method for the adaptive removal of stiffness in PDEs, J. Comp. Phys. 471,11624 (2022)
18. M.A. Herrada, S. Blanco-Trejo, J. Eggers, P.S. Stewart Global stability analysis of flexible channel flow with a hyperelastic wall J. Fluid Mech. 934,A28 (2021)
19. M. C. Dallaston, C. Zhao, J. E. Sprittles, J. Eggers Stability of similarity solutions of viscous thread pinch-off Phys. Rev. Fluids 6, 104004 (2021)
20. A. Pandey, M. Kansal, M.A. Herrada, J. Eggers, J. H. Snoeijer Elastic Rayleigh-Plateau instability: dynamical selection of nonlinear states Soft Matter 20, 5148 (2021)
21. J. Eggers Theory of bubble tips in strong viscous flows Phys. Rev. Fluids 6, 044005 (2021)
22. S. Courrech du Pont, J. Eggers Fluid interfaces with very sharp tips in viscous flow, PNAS 117, 32238 (2020)
23. J. Eggers and M. A. Fontelos Selection of singular solutions in non-local transport equations, Nonlinearity 33, 325 (2020)
24. B. Rallabandi, J. Marthelot, E. Jambon-Puillet, P.T. Brun, J. Eggers Curvature regularization near contacts with stretched elastic tubes, Phys. Rev. Lett. 123, 168002 (2019)
25. A. Deblais, M. A. Herrada, I. Hauner, K. P. Velikov, T. van Roon, H. Kellay, J. Eggers, D. Bonn Viscous effects on inertial drop formation, Phys. Rev. Lett. 121, 254501 (2018)
26. J. Dong, M. Meissner, J. Eggers, A. M. Seddon, C. P. Royall Opposed flow focusing: evidence of a second order jetting transition, Soft Matter 14, 8344 (2018)
27. C.-Y. Lai, J. Eggers, L. Deike. Bubble bursting: universal cavity and jet profiles, Phys. Rev. Lett. 121, 144501 (2018)
28. S. Karpitschka, J. Eggers, A. Pandey, J. H. Snoeijer. Cusp-shaped Elastic Creases and Furrows, Phys. Rev. Lett. 119, 198001 (2017)
29. J. Eggers, T. Grava, M.A. Herrada, and G. Pitton. Spatial structure of shock formation, J. Fluid Mech. 820, 208 (2017)
30. M. Meissner, J. Dong, J. Eggers, A. Seddon, and C. Royall. Oil-in-water microfluidics on the colloidal scale, Soft Matter 13, 788 (2017)
31. T. Grava, C. Klein, and J. Eggers. Shock formation in the dispersionless Kadomtsev-Petviashvili equation, Nonlinearity 29, 1384 (2016)
32. J. Eggers, J. Hoppe, M. Hynek, and N. Suramlishvili. Singularities of relativistic membranes, Geometric Flows 1, 17-33 (2015)
33. J. Eggers. Post-breakup solutions of Navier-Stokes and Stokes threads, Phys. Fluids 26, 072104 (2014)

34. L. Duchemin, J. Eggers. The Explicit-Implicit-Null method: Removing the numerical instability of PDEs, J. Comp. Phys. 263, 37 (2014)

35. C. Lamstaes, J. Eggers. Blunting of conical tips by surface diffusion, Phys. Rev. E. 87, 062408 (2013)

36. A. Javadi, J. Eggers, D. Bonn, M. Habibi, N.M. Ribe. Delayed capillary breakup of falling viscous jets, Phys. Rev. Lett. 110, 144501 (2013)

37. J. Eggers. Stability of a viscous pinching thread, Phys. Fluids 24, 072103 (2012)

38. M. A. Fontelos, J. Snoeijer, J. Eggers. The spatial structure of bubble pinch-off, SIAM J. Appl. Math. 71 , 1696 (2011)

39. L.V. Zhang, P. Brunet, J. Eggers, R.D. Deegan. Wavelength selection in the crown splash, Phys. Fluids 22 , 122105 (2010)

40. J. Eggers, S. Courrech du Pont. Comment on "Force Balance at the Transition from Selective Withdrawal to Viscous Entrainment", Phys. Rev. Lett. 105, 089401 (2010)
41. J. Eggers, A.F. Smith. Free streamline flows with singularities, J. Fluid Mech. 647 , 187 (2010)
42. J. Eggers, M. Fontelos, C. Josserand, S. Zaleski. Drop dynamics after impact on a solid wall: theory and simulations, Phys. Fluids 22 , 062101 (2010)
43. J. Eggers and J. Hoppe. Singularity formation for timelike extremal hypersurfaces, Phys. Lett. B 680, 274-278 (2009)
44. E. Alvarez-Lacalle, J. Casademunt, J. Eggers. Pinch-off singularities in rotating Hele-Shaw flow at high viscosity contrast, Phys. Rev. E 80 , 056306 (2009)

45. J. Sébilleau, L. Limat, J. Eggers. Flow separation from a stationary meniscus, J. Fluid Mech. 633 , 137 (2009)
46. J. Eggers, S. Courrech du Pont. Numerical analysis of tips in viscous flow, Phys. Rev. E 79 , 066311 (2009)
47. R. D. Deegan, P. Brunet, J. Eggers. Complexities of Splashing, Nonlinearity 21 , C1 (2008)
48. J. Eggers, M.A. Fontelos, D. Leppinen, J.H. Snoeijer. Theory of the collapsing axisymmetric cavity, Phys. Rev. Lett. 98 , 094502 (2007)
49. R. Ishiguro, F. Graner, E. Rolley, S. Balibar, J. Eggers. Dripping of a crystal, Phys. Rev. E 75 , 041606 (2007)
50. Y. Hennequin, D. G. A. L. Aarts, J. H. van der Wiel, G. Wegdam, J. Eggers, H. N. W. Lekkerkerker, D. Bonn. Drop formation by thermal fluctuations at an ultralow surface tension, Phys. Rev. Lett. 97 , 244503 (2006)
51. S. Courrech du Pont, J. Eggers. Sink flow deforms the interface between a viscous liquid and air into a tip singularity, Phys. Rev. Lett. 96 , 034501 (2006)
52. J. Eggers, M.A. Fontelos. Isolated inertialess drops cannot break up, J. Fluid Mech. 530 , 177 (2005)
53. É. Lorenceau, D. Quéré, J. Eggers. Air entrainment by a visocus jet plunging into a bath, Phys. Rev. Lett. 93 , 254501 (2004)

54. L. Duchemin, J. Eggers, C. Josserand. Inviscid coalescence of drops, J. Fluid Mech. 487 , 167 (2003)
55. J. Eggers. Dynamics of liquid nanojets, Phys. Rev. Lett. 89 , 084502 (2002)

56. J. Eggers. Air entrainment through free-surface cusps, Phys. Rev. Lett. 86 , 4290 (2001)

57. J. Eggers. Singularities in Droplet Pinching with vanishing Viscosity. SIAM J. Appl. Math. 60, 1997 (2000)
58. J. Eggers, M. P. Brenner. Spinning jets, in: H.-C. Chang (ed.), Proceedings of the IUTAM Symposium on Nonlinear Waves in Multi-Phase Flow,Kluwer, Dordrecht, p.185 (2000).

59. J. Eggers, J. Lister, H. A. Stone. Coalescence of Liquid Drops. J. Fluid Mech. 401 , 293 (1999)
60. I. Cohen, M. P. Brenner, J. Eggers, S. R. Nagel. Two fluid drop snap-off problem: experiment and theory Phys. Rev. Lett. 83 , 1147 (1999)
61. J. Eggers. Coalescence of Spheres by Surface Diffusion. Phys. Rev. Lett. 80, 2634 (1998)
62. M. P. Brenner, J. Eggers, K. Joseph, S. R. Nagel, X. D. Shi. Breakdown of scaling in droplet fission at high Reynolds number. Phys. Fluids 9, 1573 (1997)
63. J. Eggers. Theory of drop formation. Phys. Fluids 7, 941 (1995)
64. J. Eggers, T. F. Dupont. Drop Formation in a One-Dimensional Approximation of the Navier-Stokes Equation. J. Fluid Mech. 262, 205 (1994)
65. J. Eggers. Universal Pinching of 3D Axisymmetric Free-Surface Flow. Phys. Rev. Lett. 71, 3458 (1993)

    Thin films and contact lines:

66. B. Rallabandi, J. Eggers, M.A. Herrada, and H.A. Stone. Motion of a tightly fitting axisymmetric object through a lubricated elastic tube J. Fluid Mech. 926, A27 (2021)

67. M. C. Dallaston, M. A. Fontelos, M. A. Herrada, J. M. Lopez-Herrera, and J. Eggers. Regular and complex singularities of the generalized thin film equation in two dimensions J. Fluid Mech. 917, A20 (2021)

68. T. S. Chan, C. Kamal, J. H. Snoeijer, J. Sprittles, and J. Eggers. Cox-Voinov theory with slip J. Fluid Mech. 900, A8 (2020)

69. Y. E. Yu, L. Zhu, S. Shim, J. Eggers, and H. A. Stone. Time-dependent motion of a confined bubble in a tube: Transition between two steady states J. Fluid Mech. 857, R4 (2018)

70. C. Kamal, J. Sprittles, J. H. Snoeijer, and J. Eggers. Dynamic drying transition via free-surface cusps J. Fluid Mech. 858, 760 (2019)

71. G. Kitavtsev, M. Fontelos, and J. Eggers. Thermal rupture of a free liquid sheet J. Fluid Mech. 840, 555 (2018)

72. E. Jambon-Puillet, O. Carrier, N. Shahidzadeh, D. Brutin, J. Eggers, and D. Bonn. Spreading dynamics and contact angle of completely wetting volatile drops, J. Fluid Mech. 844, 817 (2018)

73. C. Lamstaes and J. Eggers. Arrested bubble rise in a narrow tube, J. Stat. Phys. 167, 656 (2017)

74. O. Carrier, N. Shahidzadeh-Bonn, R. Zargar, M. Aytouna, M. Habibi, J. Eggers, Daniel Bonn. Evaporation of water: evaporation rate and collective effects, J. Fluid Mech. 798, 774 (2016)

75. J. H. Snoeijer, J. Eggers, C. H. Venner. Similarity theory of lubricated Hertzian contacts, Phys. Fluids 25, 101705 (2013)

76. J. Eggers, R.R. Kerswell, T. Mullin. Balancing a cylinder on a thin vertical layer of viscous fluid, Phys. Rev. E 87, 065001 (2013)

77. T. S. Chan, J. H. Snoeijer, J. Eggers. Theory of the forced wetting transition, Phys. Fluids 24, 072104 (2012)

78. A. Daerr, J. Eggers, L. Limat, N. Valade. General mechanism for the meandering instability of rivulets of Newtonian fluids , Phys. Rev. Lett. 106, 184501 (2011)

79. J. Eggers, L. Pismen. Nonlocal description of evaporating drops , Phys. Fluids 22, 112101 (2010)

80. J. Snoeijer, J. Eggers. Asymptotic analysis of the dewetting rim , Phys. Rev. E 82, 056314 (2010)

81. J. H. Snoeijer, P. Brunet, J. Eggers. Maximum size of drops levitated by an air cushion , Phys. Rev. E 79, 036307 (2009)

82. J. Ziegler, J. H. Snoeijer, J. Eggers. Film transitions of receding contact lines, Eur. Phys. J. Special Topics 166, 177 (2009)

83. P. Brunet, J. Eggers, R.D. Deegan. Motion of a drop driven by substrate vibrations, Eur. Phys. J. Special Topics 166, 11 (2009)

84. L.M. Pismen, J. Eggers. Solvability condition for the moving contact line, Phys. Rev. E 78, 056304 (2008)

85. J. H. Snoeijer, J. Ziegler, B. Andreotti, M. Fermigier, J. Eggers. Thick films of viscous fluid coating a plate withdrawn from a liquid reservoir, Phys. Rev. Lett. 100, 244502 (2008)

86. P. Brunet, J. Eggers, R.D. Deegan. Vibration-induced climbing of drops, Phys. Rev. Lett. 99, 144501 (2007)

87. J. H. Snoeijer, N. Le Grand-Piteira, L. Limat, H.A. Stone, J. Eggers. Cornered drops and rivulets, Phys. Fluids 19, 042104 (2007)

88. J. Eggers. Contact line motion for partially wetting fluids, Phys. Rev. E 72, 061605 (2005)

89. J. Eggers. Existence of receding and advancing contact lines, Phys. Fluids 17, 082106 (2005)

90. J. Eggers. Hydrodynamic theory of forced dewetting, Phys. Rev. Lett. 93, 094502 (2004)

91. J. Eggers. Toward a description of contact line motion at higher capillary numbers, Phys. Fluids 16, 3491 (2004)
92. J. Eggers, R. Evans. Comment on "Dynamic Wetting by liquids of different viscosity", by T.D. Blake and Y.D. Shikhmurzaev, J. Colloid Interf. Sci. 280, 537 (2004)
...and here is Blake and Shikhmurzaev's response
93. J. Eggers, H. A. Stone. Characteristic lengths at moving contact lines for a perfectly wetting fluid: the influence of speed on the dynamic contact angle, J. Fluid Mech. 505, 309 (2004)

Complex fluids:

94. A. Gaillard, M.A. Herrada, A. Deblais, C. van Poelgeest, L. Laruelle, J. Eggers, and D. Bonn. When does the elastic regime begin in viscoelastic pinch-off? J. Fluid Mech. (2024)

95. M. Kansal, V. Bertin, C. Datt, J. Eggers, and J. H. Snoeijer. Viscoelastic wetting: Cox-Voinov theory with normal stress effects J. Fluid Mech. 985, A17 (2024)

96. A. Gaillard, M.A. Herrada, A. Deblais, J. Eggers, and D. Bonn. Beware of CaBER: Filament thinning rheometry does not always give 'the' relaxation time of polymer solutions Phys. Rev. Fluids 9, 073302 (2024)

97. J. Eggers, T.B. Liverpool, and A. Mietke. Rheology of suspensions of flat elastic particles Phys. Rev. Lett. 131, 194002 (2023)

98. M.A. Herrada, A. Ponce-Torres, M. Rubio, J. Eggers, and J.M. Montanero. Stability and tip streaming of a surfactant-loaded drop in an extensional flow. Influence of surface viscosity J. Fluid Mech. 934, A26 (2022)

99. A. Deblais, M.A. Herrada, J. Eggers, and D. Bonn. Self-similarity in the breakup of very dilute viscoelastic solutions J. Fluid Mech. 904, R2 (2020)

100. A. Ponce-Torres, M. Rubio, M.A. Herrada, J. Eggers and J.M. Montanero. Influence of the surface viscous stress on the pinch-off of free surfaces loaded with nearly-inviscid surfactants Scientific Reports 10, 16065 (2020)

101. A. Loisy, J. Eggers, and T.B. Liverpool. How many ways a cell can move: the modes of self-propulsion of an active drop Soft Matter 16, 3106 (2020)

102. J. Eggers, M.A. Herrada, and J.H. Snoeijer Self-similar breakup of polymeric threads as described by the Oldroyd-B model J. Fluid Mech. 887, A19-1 (2020)

103. A. Loisy, J. Eggers, and T.B. Liverpool. Tractionless self-propulsion of active drops Phys. Rev. Lett. 123, 248006 (2019)

104. A. Loisy, A. P. Thompson, J. Eggers, and T.B. Liverpool. Exact results for sheared polar active suspensions with variable liquid crystalline order J. Chem. Phys. 150, 104902 (2019)

105. E. Turkoz, J. M. Lopez-Herrera, J. Eggers, C. B. Arnold, L. Deike. Axisymmetric simulation of viscoelastic filament thinning with the Oldroyd-B model, J. Fluid Mech. 851, R2-1 (2018)
106. A. Loisy, J. Eggers, and T.B. Liverpool. Active suspensions have nonmonotonic flow curves and multiple mechanical equilibria Phys. Rev. Lett. 121, 018001 (2018)

107. D. Cortese, J. Eggers, and T. B. Liverpool. Pair creation, motion, and annihilation of topological defects in 2D nematics, Phys. Rev. E 97, 022704 (2018)

108. D. Cortese, J. Eggers, and T. B. Liverpool. Nonlinear spontaneous symmetry breaking in active polar films, Europhys. Lett. 115, 28002 (2016)

109. J. Eggers. Instability of a polymeric thread, Phys. Fluids 26, 033106 (2014)
110. M. Aytouna, J. Paredes, N. Shahidzadeh-Bonn, S. Moulinet, C. Wagner, Y. Amarouchene, J. Eggers, D. Bonn. Drop formation in non-Newtonian fluids, Phys. Rev. Lett. 110, 034501 (2013)
111. R. Sattler, S. Gier, J. Eggers, C. Wagner. The final stages of capillary break-up of polymer solutions, Phys. Fluids 24, 023101 (2012)
112. R. Sattler, C. Wagner, J. Eggers. Blistering pattern and formation of nanofibers in capillary thinning of polymer solutions, Phys. Rev. Lett. 100, 164502 (2008)
113. C. Clasen, J. Eggers, M. A. Fontelos, J. Li, G. H. McKinley. The beads-on-string structure of viscoelastic threads, J. Fluid Mech. 556 , 283 (2006)
114. C. Wagner, Y. Amarouchene, D. Bonn, J. Eggers. Droplet detachment and satellite bead formation in visco-elastic fluids, Phys. Rev. Lett. 95 , 164504 (2005)

Sand, Beads, and Foams:

115. J. Hickford, R. Jones, S. Courrech du Pont, J. Eggers. Knotting probability of a shaken ball-chain, Phys. Rev. E 74 , 052101 (2006)
116. J. Eggers. Sand as Maxwell's demon Phys. Rev. Lett. 83 , 5322 (1999)
117. J. Eggers, H. Riecke. A continuum description of vibrated sand Phys. Rev. E 59, 4476 (1999)
118. S. A. Koehler, H. A. Stone, M. P. Brenner, J. Eggers. Dynamics of foam drainage Phys. Rev. E 58, 2097 (1998)

Turbulence:

119. J. Eggers, Z. J. Wang. Crossover behavior of turbulent velocity fluctuations. Phys. Rev. E. 57, 4281 (1998)
120. C. Uhlig, J. Eggers. Singularities in cascade models of the Euler equation. Z. Phys. B 103, 69 (1997)
121. C. Uhlig, J. Eggers. Local coupling of shell models leads to anomalous scaling. Z. Phys. B 102, 513 (1997)
122. J. Eggers. Multifractal scaling from nonlinear turbulence dynamics: analytical methods. Phys. Rev. E 50, 285 (1994)
123. J. Eggers. Intermittency in dynamical models of turbulence. Phys. Rev. A 46, 1951 (1992)
124. J. Eggers, S. Grossmann. Effect of dissipation fluctuations on anomalous velocity scaling in turbulence Phys. Rev. A 45, 2360 (1992)
125. J. Eggers, S. Grossmann. Does deterministic chaos imply intermittency in fully developed turbulence? Phys. Fluids A 3, 1958 (1991)
126. J. Eggers, S. Grossmann. Anomalous turbulent velocity scaling from the Navier-Stokes equation. Phys. Lett. A 156, 444 (1991)
127. J. Eggers, S. Grossmann. Origin of the Oboukhov scaling relation in turbulence Phys. Lett. A 153, 12 (1991)

Statistical Physics:

128. J. Eggers, M. Fontelos. Anomalous dimensions of the Smoluchowski coagulation equation Phys. Rev. E 108, 064110 (2023)
129. C. P. Royall, J. Eggers, A. Furukawa, H. Tanaka. Probing colloidal gels at multiple length scales: the role of hydrodynamics Phys. Rev. Lett. 114, 258302 (2015)
130. A. Malins, S.R. Williams, J. Eggers, C.P. Royall. Identification of structure in condensed matter with the topological cluster classification J. Chem. Phys. 139, 234506 (2013)
131. A. Malins, J. Eggers, C.P. Royall. Investigating isomorphs with the topological cluster classification J. Chem. Phys. 139, 234505 (2013)
132. A. Malins, J. Eggers, C.P. Royall, S.R. Williams, H. Tanaka. Identification of long-lived clusters and their link to slow dynamics in a model glass former J. Chem. Phys. 138, 12A535 (2013)
133. A. Malins, J. Eggers, H. Tanaka, C. P. Royall. Lifetimes and lengthscales of structural motifs in a model glass former Faraday Discuss. 167, 405 (2013)
134. M. Godonoga, A. Malins, J. Eggers, C. P. Royall. Local structure of liquid-vapour interfaces Mol. Phys. 109, 1393 (2011)
135. A. Malins, S. R. Williams, J. Eggers, H. Tanaka, C. P. Royall. The effect of inter-cluster interactions on the structure of colloidal clusters J. Non-Crystalline Solids 357, 760 (2011)
136. A. Malins, S. R. Williams, J. Eggers, H. Tanaka, C. P. Royall. Geometric frustration in small colloidal clusters J. Phys.: Condens. Matter 21, 425103 (2009)
137. R. Schloms, J. Eggers, V. Dohm. Nonuniversal Critical Behavior along the lambda-line of ⁴He. Jap. J. Appl. Phys. 26, Supplement 26-3 (1987)

Comments and popularizations:

138. J. Eggers. Singularities at interfaces, in: Soft Interfaces: Lecture Notes of the Les Houches Summer School Volume 98, July 2012, Chapter 3, p. 101, edited by L. Bocquet, D. Quéré, T. A. Witten, and L. F. Cugliandolo, Oxford (2017).

139. J. Eggers. Getting the drops in, Nature Phys. 10, 548 (2014)

140. J. Eggers. The subtle dynamics of liquid sheets, J. Fluid Mech. 672 , 1 (2011)

141. J. Eggers. Coupling the large and the small, Nature Phys. 3, 145 (2007)

142. J. Eggers. Singularities and Similarities, in: Thin films of soft matter, edited by S. Kalliadasis and U. Thiele, Springer, p. 95 (2007)
143. J. Eggers. A brief history of drop formation, in: Nonsmooth Mechanics and Analysis, Chapter 14, edited by P. Alart, O. Maisonneuve, and R.T. Rockafellar, Springer, p. 163 (2006).

144. J. Eggers. Von der Geburt eines Tropfens. (The birth of a drop) in: Wasser, published by Kunst und Ausstellungshalle der Bundesrepublik Deutschland (2000) (in German)

145. J. Eggers. Wie tropft ein Wasserhahn? (How does a faucet drip?) Essener Unikate 11, 22 (1999)
146. J. Eggers. Suction power provides a new route to microdrops. (Physics in Action column) Physics World 11, 27(1998)
147. J. Eggers. Tropfenbildung. (Drop formation) Phys. Bl. 53, 431 (1997)
148. M. P. Brenner, X. D. Shi, J. Eggers, S. R. Nagel. The bifurcation of liquid drops Phys. Fluids 7, S2 (1995)
149. S. Hoppenau, J. Eggers. Rutherford cross sections measured with nuclear track detectors. Eur. J. Phys. 6, 86 (1985)