Publications
99. G. Kanellopoulos, D. Razis, and K. van der
Weele,
On the shape and size of granular roll waves,
J. Fluid Mech. 950, A27
(2022).
98. D. Razis, G. Kanellopoulos, and K. van der
Weele,
Continuous hydraulic jumps in laminar channel flow,
J. Fluid Mech. 915, A8
(2021).
97. G. Kanellopoulos, D. Razis, and K. van der
Weele,
On the structure of granular jumps: the dynamical systems approach,
J. Fluid Mech. 912, A54
(2021).
96. G. Kanellopoulos, D. Razis, and K. van der
Weele,
The Persian Immortals: a classical case of self-organization,
Am. J. Phys. 88, 263 - 268
(2020).
95. D. Razis, G. Kanellopoulos, and K. van der
Weele,
A dynamical systems view of granular flow: from monoclinal flood waves to
roll waves,
J. Fluid Mech. 869, 143 - 181
(2019).
94. D. Razis, G. Kanellopoulos, and K. van der
Weele,
The granular monoclinal wave,
J. Fluid Mech. 843, 810 - 846
(2018).
93. K. van der Weele and G. Kanellopoulos,
Coexistence of up- and downstream traffic waves on a ring road,
Eur. Phys. J. Special Topics 225,
1127 - 1141 (2016).
92. G.
Kanellopoulos and K. van der Weele,
Merlon-type density waves in a compartmentalized conveyor system,
Eur. Phys. J. Special Topics 225, 1211 - 1218 (2016).
91. H.J. van Gerner, K. van der Weele, D. van der Meer,
and M.A. van der Hoef,
Scaling behavior of coarsening Faraday heaps,
Phys. Rev. E 92, 042203 (2015).
"Editors' Suggestion"
90. G. Kanellopoulos, D. van der Meer, and K. van der
Weele,
Emergence of travelling density waves in cyclic multiparticle transport,
Phys. Rev. E 92, 022205 (2015).
89. D. Razis, A.N. Edwards, J.M.N.T. Gray, and
K. van der Weele,
Arrested coarsening of granular roll waves,
Physics of Fluids 26, 123305 (2014).
88. J.H. Snoeijer and K. van der Weele,
Physics of the granite sphere fountain,
American Journal of Physics 82, 1029
(2014). "Editor's Pick", featured on the cover.
87. E. Christodoulidi, K. van der Weele, Ch.G.
Antonopoulos, and T. Bountis,
Phase transitions in models of bird flocking,
invited chapter in: "Chaos, Information Processing and Paradoxical
Games: The Legacy of John S. Nicolis",
edited by G. Nicolis and V. Basios (World Scientific, 2014) pp. 383-398. ISBN:
978-9814602129
86. K. van der Weele and G. Kanellopoulos,
Modelling complex multi-particle transport: From smooth flow to cluster
formation,
in: Springer Proceedings in Complexity, "Proceedings
of the European Conference on Complex Systems 2012", Eds.
T. Gilbert, M. Kirkilionis, and G. Nicolis (Springer International Publ.,
Switzerland, 2013), pp 107-115, ISBN: 978-3-319-00394-8
Zeelandbrug (The Netherlands)
85. P. Eshuis, K. van der Weele, M. Alam, H.J.
van Gerner, M. van der Hoef, H. Kuipers, S. Luding, D. van der Meer, and D.
Lohse,
Buoyancy-driven convection in vertically shaken granular matter: experiment,
numerics, and theory,
Granular Matter 15, 893-911 (2013).
84. G. Kanellopoulos and K. van der Weele,
Critical flow and clustering in a model of granular transport: The interplay
between drift and antidiffusion,
Phys. Rev. E 85, 061303 (2012).
83. H.J. van Gerner, K. van der Weele, M. van der Hoef,
and D. van der Meer,
Air-induced inverse Chladni patterns,
J. Fluid Mech. 689, 203-220 (2011).
82. G. Kanellopoulos and K. van der Weele,
Subcritical pattern formation in granular flow,
Int. J. of Bifurcation and Chaos 21,
2305-2319 (2011).
81. T. Bountis, K. van der Weele, G.
Kanellopoulos, and K. Andriopoulos,
Model
reduction of a higher-order KdV equation for shallow water waves,
in: Lecture Notes in Computational Science and Engineering 75, "Coping with Complexity: Model Reduction and
Data Analysis", Eds. A.N. Gorban and D. Roose (Springer,
Berlin-Heidelberg, 2011) pp 287-298, ISBN: 978-3-642-14940-5.
80. H.J. van Gerner, M.A. van der Hoef, D. van der Meer,
and K. van der Weele,
Inversion of Chladni patterns by tuning the vibrational acceleration,
Phys. Rev. E 82, 012301 (2010).
79. P. Eshuis, K. van der Weele, D. Lohse, and
D. van der Meer,
Experimental realization of a rotational ratchet in a granular gas,
Phys. Rev. Lett. 104, 248001 (2010).
78. D. van der Meer, M.A. van der Hoef, H.J. van Gerner,
and K. van der Weele,
De zandhopen van Faraday (in Dutch),
Nederlands Tijdschrift voor Natuurkunde 76(5),
160-164 (May 2010).
77. P. Eshuis, D. van der Meer, M. Alam, H.J. van Gerner,
K. van der Weele, and D. Lohse,
Onset of convection in strongly shaken granular matter,
Phys. Rev. Lett. 104, 038001 (2010).
76. K. Andriopoulos, T. Bountis, K. van der
Weele, and L. Tsigaridi,
The shape of soliton-like solutions of a
higher-order KdV equation describing water waves,
J. Nonlin. Math. Phys. 16, Suppl. 1-12 (2009).
75. K. van der Weele, G. Kanellopoulos, Ch. Tsiavos, and D. van der Meer,
Transient granular shock waves and upstream motion on a staircase,
Phys. Rev. E 80, 011305 (2009).
74. P. Eshuis, K. van der Weele, E.
Calzavarini, D. van der Meer, and D. Lohse,
Exploring the limits of granular hydrodynamics: A horizontal array of
inelastic particles,
Phys. Rev. E 80, 011302 (2009).
73. H.J. van Gerner, G.A. Caballero-Robledo, D.
van der Meer, K. van der Weele, and M.A. van der Hoef,
Coarsening of Faraday heaps: Experiment, simulation, and theory,
Phys. Rev. Lett. 103, 028001 (2009).
72. G. Kanellopoulos and K. van der Weele,
Critical flow of granular matter on a conveyor belt,
in: AIP Conference Proceedings Vol. 1076, "Let's Face Chaos Through
Nonlinear Dynamics", Maribor, Slovenia, 29 June-13 July 2008, Eds. M.
Robnik and V.G. Romanovski (American Institute of Physics, 2008) pp 112-121, ISBN: 978-0-7354-0607-0.
71. K. van der Weele,
Granular Gas Dynamics: How Maxwell's Demon rules in a non-equilibrium system,
Contemporary Physics 49, 157-178 (2008).
70. J.P. van der Weele,
Σειρές Φουριέ (in Greek),
Lecture Notes on Fourier Series (Univ. of Patras, 2007) 120 pages.
69. P. Eshuis, K. van der Weele, D. van der Meer, R.
Bos, and D. Lohse,
Phase diagram of vertically shaken granular matter,
Phys. Fluids 19, 123301
(2007).
Santorini, the probable site of ancient
Atlantis (Greece)
68. H.J. van Gerner, M. van der Hoef, D. van der Meer,
and K. van der Weele,
Interplay of air and sand: Faraday heaping unravelled,
Phys. Rev. E 76, 051305
(2007).
67. J.P. van der Weele and J.H. Snoeijer,
Beyond the pole-barn paradox: How the pole is caught,
Journal for Nonlinear Phenomena in Complex Systems 10, 271-277 (2007).
66. M. Versluis, C. Blom, D. van der Meer, K. van der
Weele, and D. Lohse,
Leaping shampoo,
Phys. Fluids 19, 091106 (2007).
65. D. van der Meer, K. van der Weele, P. Reimann, and D.
Lohse,
Compartmentalized granular gases: flux model results,
J. Stat. Mech. 2007, No 7
(July 2007) P07021.
64. K. van der Weele, D. van der Meer, and D. Lohse,
Ultraslow coarsening in compartmentalized granular gases,
Journal for Nonlinear Phenomena in Complex Systems 10, 116-126 (2007).
63. M. Versluis, C. Blom, D. van der Meer, K. van der
Weele, and D. Lohse,
Springende shampoo (in Dutch),
Ned. Tijdschrift voor Natuurkunde 72(9), 312-313 (September 2006).
62. M. Versluis, C. Blom, D. van der Meer, K. van der
Weele, and D. Lohse,
Leaping shampoo and the stable Kaye effect,
J. Stat. Mech. 2006, No 7 (July 2006) P07007.
See also: Nature 440, News in Brief, Bouncing fluids make a splash
(13 April 2006) p 858,
and: J. Stat. Mech. (2006) N10001, News and
Perspectives, Rodeo in a Petri Dish, by L. Courbin, E. Denieul, and H.A.
Stone.
61. D. van der Meer, K. van der Weele, and P. Reimann,
Granular fountains: Convection cascade in a compartmentalized granular gas,
Phys. Rev. E 73, 061304
(2006).
60. K. van der Weele, D. van der Meer, and D. Lohse,
Ultraslow coarsening in compartmentalized granular gases,
in: "Order and Chaos", Vol. 9, Proceedings of the 18th Summer
School on Complexity and Nonlinear Systems, Volos, Greece, 18-29 July
59. P.G. Eshuis, K. van der Weele, D. van der Meer,
and D. Lohse,
Granular Leidenfrost effect: Experiment and theory of floating particle
clusters,
Phys. Rev. Lett. 95, 258001 (2005).
58. R. Bergmann, R. Mikkelsen, C. Zeilstra, D. van der
Meer, M. Versluis, K. van der Weele,
M. van der Hoef, H. Kuipers, and D. Lohse,
Impact on soft sand: Void collapse and jet formation,
in: "Powders and Grains 2005", Vol. 2, R. Garcia-Rojo, H.J. Herrmann,
and S. McNamara (eds.) (Balkema Publ.,
Leiden, 2005) pp 1211-1214, ISBN: 0-415-38349-8.
57. P. Eshuis, K. van der Weele, D. van der Meer, and D.
Lohse,
The granular Leidenfrost effect,
in: "Powders and Grains 2005", Vol. 2, R. Garcia-Rojo, H.J. Herrmann,
and S. McNamara (eds.) (Balkema Publ., Leiden, 2005) pp 1155-1158, ISBN:
0-415-38349-8.
56. R. Mikkelsen, K. van der Weele, D. van der Meer, M.
van Hecke, and D. Lohse,
Small-number statistics near the clustering transition in a
compartmentalized granular gas,
Phys. Rev. E 71, 041302
(2005).
55. D. van der Meer, K. van der Weele, and D. Lohse,
Coarsening Dynamics in a Vibrofluidized Compartmentalized Granular Gas,
J. Stat. Mech. 2004,
No 4 (April 2004) P04004.
54. K. van der Weele and P. Eshuis,
Clusterweek (in Dutch),
Seven contributions to the "Wetenschappelijke Scheurkalender 2005",
10-16 January (Veen Magazines, Diemen, Holland, 2004), ISBN: 9076988374.
53. K. van der Weele and P. Eshuis,
Zand: Vaste Stof, Vloeistof, of Gas? (in Dutch),
in: Proc. Woudschotenconferentie "New Trends in Physics",
Noordwijkerhout, December 12-13,
52. D. Lohse, R.P.H. Bergmann, R. Mikkelsen, C. Zeilstra,
D. van der Meer, M. Versluis, K. van der Weele, M.A. van der Hoef, and J.A.M.
Kuipers,
Impact on soft sand: Void collapse and jet formation,
Phys. Rev. Lett. 93, 198003 (2004).
Cinque
Terre (Italy)
51. K. van der Weele, W. Spit, T. Mekkes, and D. van der
Meer,
From granular flux model to traffic flow description,
in: "Traffic and Granular Flow 03", S.P. Hoogendoorn, S. Luding,
P.H.L. Bovy, M. Schreckenberg, and D.E. Wolf (Eds.) (Springer, Berlin, 2005) pp
569-578, ISBN: 3-540-25814-0.
50. K. van der Weele, R. Mikkelsen, D. van der Meer, and
D. Lohse,
Cluster formation in compartmentalized granular gases,
in: "The Physics of Granular Media", H. Hinrichsen and D.E. Wolf
(Eds.) (Wiley-VCH Verlag, Weinheim, 2004) pp 117-139, ISBN: 3-527-40373-6.
49. R. Mikkelsen, D. van der Meer, K. van der Weele, and
D. Lohse,
Competitive clustering in a bidisperse granular gas: Experiment, Molecular
Dynamics, and Flux Model,
Phys. Rev. E70, 061307 (2004).
48. D. van der Meer, P. Reimann, K. van der Weele, and D.
Lohse,
Spontaneous Ratchet Effect in a Granular Gas,
Phys. Rev. Lett. 92, 184301 (2004).
47. D. van der Meer and K. van der Weele,
Breakdown of a near-stable granular cluster,
Prog. Theor. Phys. Suppl. 150,
297-312 (2003).
46. K. van der Weele, D. van der Meer, and D. Lohse,
Birth and Sudden Death of a Granular Cluster,
in: "Granular Gas Dynamics", T. Poeschel and N. Brilliantov (eds.),
Lecture Notes in Physics 624, 335-346 (Springer, Berlin, 2003), ISBN
3-540-20110-6.
45. K. van der Weele, D. van der Meer, and D. Lohse,
Formation and collapse of clusters in a granular gas,
Proc. 4th Panhellenic Conference on Chemical Engineering, Patras, Greece, May
29-31, 2003 (Tziola Publ., Thessaloniki, 2003, ISBN 960-418-011-8) pp 913-916.
44. R. Mikkelsen, K. van der Weele, D. van der Meer, M.
Versluis, and D. Lohse,
Competitive Clustering in a Granular Gas,
Phys. Fluids 15(9), S8
(September 2003); paper accompanying the winning video entry in the Gallery of
Fluid Motion, APS Meeting on Fluid Physics, Dallas, USA, November 24-26, 2002.
43. K. van der Weele, D. van der Meer, and D. Lohse,
Birth and sudden death of a granular cluster,
in: "Advances in Solid State Physics, Vol. 42", B. Kramer (Ed.),
Proc. DPG Spring Meeting
42. K. van der Weele, D. van der Meer, and D. Lohse,
Maxwell's Demon in a Granular Gas,
in: "Order and Chaos", Vol. 8, edited by T. Bountis and Sp. Pnevmatikos (K. Sfakianakis Publ.,
Thessaloniki, 2003, ISBN 960-87136-2-5) pp 239-254.
41. R. Mikkelsen, M. Versluis, E. Koene, G.W.
Bruggert, D. van der Meer, K. van der Weele, and D. Lohse,
Granular eruptions: void collapse and jet formation,
Phys. Fluids 14(9), S14
(September 2002); paper accompanying the winning video entry in the Gallery of
Fluid Motion, APS Meeting on Fluid Physics, San Diego, USA, November 18-20,
2001.
40. M. Sandtke and K. van der Weele,
Maxwells duivel staat naast je in de file (in Dutch),
Natuur en Techniek 70(2), pp 28-33
(February 2002). Featured on the cover.
See also the accompanying editorial article by
J. van den Broek,
Fascinerende fysica van fietskogeltjes, same issue, pp 76-77.
39. K. van der Weele, D. van der Meer, and D. Lohse,
Clustering in granulair gas; Maxwell's duivel op de korrel genomen (in
Dutch),
Ned. Tijdschrift voor Natuurkunde 68, 22-25 (January 2002). Featured on
the cover.
38. R. Mikkelsen, D. van der Meer, K. van der Weele, and
D. Lohse,
Competitive clustering in a bidisperse granular gas,
Phys. Rev. Lett. 89, 214301 (2002).
37. D. van der Meer, K. van der Weele, and D. Lohse,
Sudden Collapse of a Granular Cluster,
Phys. Rev. Lett. 88,
174302 (2002). Featured on the cover.
36. D. van der Meer, K. van der Weele, and D. Lohse,
Bifurcation Diagram for Compartmentalized Granular Gases,
Phys. Rev. E 63, 061304
(2001).
35. K. van der Weele, D. van der Meer, M. Versluis, and
D. Lohse,
Hysteretic clustering in granular gas,
Europhys. Lett. 53, 328-334 (2001).
Salt pillars in the Dead Sea (Israel)
34. K. van der Weele,
Van gekoppelde slingers tot galopperende
paarden (in Dutch),
AIgg Kennisgeving (Orgaan van de Nederlandse Artificiele Intelligentie
gebruikers-groep), Vol. 14, 1-13 (March 2001).
33. J.P. van der Weele and E.J. Banning,
Mode interaction in horses, tea, and
other nonlinear oscillators: the universal role of symmetry,
Am. J. Phys. 69 (9), 953-965 (2001).
32. J.P. van der Weele and A. Bountis,
Multibreathers in nonlinear lattices,
in: "Order and Chaos", Vol. 6, edited by T. Bountis and Sp. Pnevmatikos (G.A. Pnevmatikos Publ., Athens,
2000, ISBN 960-7258-47-9) pp 187-200.
31. T. Bountis, H.W. Capel, M. Kollman, J.M. Bergamin,
J.C. Ross, and J.P. van der Weele,
Multibreathers and homoclinic chaos in 1-dimensional nonlinear lattices,
Phys. Lett. A 268, 50-60
(2000).
30. J.P. van der Weele and E.J. Banning,
Mode interaction in a cup of coffee and other nonlinear oscillators,
Journal for Nonlinear Phenomena in Complex Systems 3, 268-283 (2000).
29. P. Timmerman and J.P van der Weele,
On the rise and fall of a ball with linear or quadratic drag,
Am. J. Phys. 67 (7), 538-546 (1999).
28. T. Bountis and J.P. Van Der Welle (sic),
Subharmonic bifurcations and Melnikov's theory in a system of parametrically
driven pendulums,
Journal for Nonlinear Phenomena in Complex Systems 2, 1-13 (1999).
27. E.J. Banning, J.P. van der Weele, and M.M.
Kettenis,
Mode competition in a system of two parametrically driven pendulums; the
role of symmetry,
Physica A 247, 281-311 (1997).
26. E.J. Banning, J.P. van der Weele, J.C. Ross, and
M.M. Kettenis,
Mode competition in a system of two parametrically driven pendulums with
nonlinear coupling,
Physica A 245, 49-98 (1997).
25. E.J. Banning, J.P. van der Weele, E. de Kleine,
J.C. Ross, and M.M. Kettenis,
Mode competition in a system of two parametrically driven pendulums; the
dissipative case,
Physica A 245, 11-48 (1997).
24. J.P. van der Weele and E. de Kleine,
The order-chaos-order sequence in the spring pendulum,
Physica A 228, 245-272 (1996).
23. E.J. Banning and J.P. van der Weele,
Mode competition in a system of two parametrically driven pendulums; the
Hamiltonian case,
Physica A 220, 485-533 (1995).
22. J.P. van der Weele,
Opgaven Quantummechanica, Volume II (in
Dutch),
Lecture Notes on Quantum Mechanics (University of Twente, 4th ed. 1997) 95
pages.
21. J.P. van der Weele,
Opgaven Quantummechanica, Volume I (in Dutch),
Lecture Notes on Quantum Mechanics (University of Twente, 5th enlarged ed.,
1996) 125 pages.
20. J.P. van der Weele,
Symmetry breaking in the period doubling route to chaos,
in: Proc. NATO ASI Conference on Chaotic Dynamics - Theory and Practice,
Patras, Greece, 11-20 July 1991, T. Bountis ed. (Plenum Press, New York, 1992) pp 357-369.
19. J.P. van der Weele,
De wonderlijke dynamica van de parametrisch aangedreven slinger (in Dutch),
in: "Chaos, revolutie of rage? ", T. Van Daelen, J. Goosens, H.
Heijman and J. de Vletter eds. (Studium Generale, Technical University of
Eindhoven, 1991) pp 77-86.
18. J.P. van der Weele and T.P. Valkering,
The birth process of periodic orbits in non-twist maps,
Physica A 169, 42-72 (1990).
Hadrian's Wall in winter (UK)
17. T. Post, H.W. Capel, G.R.W. Quispel, and J.P. van
der Weele,
Bifurcations in two-dimensional reversible maps,
Physica A 164, 625-662 (1990).
16. J.P. van der Weele and T.P. Valkering,
Orde en chaos in de parametrisch aangedreven slinger (in Dutch),
in: "Dynamische Systemen en Chaos", F. Verhulst and H.W. Broer eds. (Epsilon, Utrecht, 1990) pp 232-255.
15. T. Post, H.W. Capel and J.P. van der Weele,
Phase length distributions in intermittent band switching,
Physica A 160, 321-350 (1989).
14. T. Post, H.W. Capel and J.P. van der Weele,
Window scaling in one-dimensional maps,
Phys. Lett. 136A, 109-113
(1989).
13. T. Post, H.W. Capel, and J.P. van der Weele,
New results in intermittent band switching,
in: Proc. Conference on Singular Behaviour and Nonlinear Dynamics, Samos,
Greece
12. K. van der Weele,
The birth of twin Poincare-Birkhoff chains near 1:3 resonance,
in: Proc. Conference on Singular Behaviour and Nonlinear Dynamics, Samos,
Greece
11. T. Post, H.W. Capel, and J.P. van der Weele,
Short-phase anomalies in intermittent switching,
in: Proc. Conference on Nonlinear Dynamics, Bologna
10. T. Post, H.W. Capel, and J.P. van der Weele,
Short-phase anomalies in intermittent band switching,
Phys. Lett. 133A, 372-377
(1988).
9. J.P. van der Weele, T.P. Valkering, H.W. Capel, and
T. Post,
On the birth of Poincare-Birkhoff chains near 1:3 resonance,
Physica A 153, 283-294 (1988).
8. J.P. van der Weele, H.W. Capel, T.P. Valkering, and
T.Post,
The squeeze effect in non-integrable Hamiltonian systems,
Physica A 147, 499-532 (1988).
7. J.P. van der Weele,
Scaling and squeezing in nonlinear dynamics,
PhD thesis (University of Amsterdam, 1987) 184 pages.
6. A. van der Bilt, L.W. Olthoff, H.W. van der Glas,
K. van der Weelen (sic), and F.
Bosman,
A mathematical description of the comminution of food during mastication in
man,
Archives of Oral Biology 32, 579-586 (1987).
5. J.P. van der Weele and H.W. Capel,
The f(a) formalism applied to the crossover from conservative to dissipative
scaling behaviour in period-doubling systems,
Physica A 147, 297-314 (1987).
4. J.P. van der Weele, H.W. Capel, and R. Kluiving,
Period doubling in maps with a maximum of order z,
Physica A 145, 425-460 (1987).
3. J.P. van der Weele, H.W. Capel, and R. Kluiving,
On the scaling factors α(z) and δ(z),
Phys. Lett. 119A, 15-20
(1986).
2. J.P. van der Weele, H.W. Capel, T. Post, and Ch.J.
Calkoen,
Crossover from dissipative to conservative behaviour in period-doubling
systems,
Physica A 137, 1-43 (1986).
1. J.P. van der Weele, H.W. Capel, and Ch.J. Calkoen,
Crossover from dissipative to conservative systems,
Phys. Lett. 111A, 5-11
(1985).
Sunset in the direction of Ithaca, seen from
the beach of Rio, Patras (Greece)