Publications

Below is a list of my publications in peer-reviewed journals since 2001, in anti-chronological order.


[45] S. von Kann, J.H. Snoeijer, D. Lohse, and D. van der Meer,
Nonmonotonic settling of a sphere in a cornstarch suspension ,
Phys. Rev. E 84, 060401(R) (2011).

[44] H.J. van Gerner, K. van der Weele, M.A. van der Hoef, and D. van der Meer
Air-induced inverse Chladni patterns ,
J. Fluid Mech. 689, 203 (2011).

[43] O.R. Enríquez, I.R. Peters, S. Gekle, L.E. Schmidt, D. van der Meer, and D. Lohse,
Nonaxisymmetric impact creates pineapple-shaped cavity,
Phys. Fluids 23, 091106 (2011).

[42] O.R. Enríquez, I.R. Peters, S. Gekle, L.E. Schmidt, M. Versluis, D. van der Meer, and D. Lohse,
Collapse of nonaxisymmetric cavities,
Phys. Fluids 22, 091104 (2010).

[41] 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).

[40] 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).

[39] S. von Kann, S. Joubaud, G. Caballero-Robledo, D. Lohse, and D. van der Meer,
The effect of finite container size on granular jet formation,
Phys. Rev. E 81, 041306 (2010).

[38] 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: Success of the continuum approach,
Phys. Rev. Lett, 104, 038001 (2010).

[37] S. Gekle, I. Peters, J.M. Gordillo, D. van der Meer, and D. Lohse,
Supersonic air flow due to solid-liquid impact,
Phys. Rev. Lett. 104, 024501 (2010).
[Selected as Editors' Choice and Physics Viewpoint.]

[36] S. Gekle, D. van der Meer, J. Snoeijer, and D. Lohse,
Approach to universality in axisymmetric inviscid bubble pinch-off,
Phys. Rev. E 80, 036305 (2009).

[35] R. Bolaños-Jiménez, A. Sevilla, C. Martínez-Bazán, D. van der Meer, and J.M. Gordillo,
Viscous effects in the collapse of a bubble in a quiescent liquid pool,
Phys. Fluids 21, 072103 (2009).

[34] K. van der Weele, G. Kanellopoulos, C. Tsiavos, and D. van der Meer,
Transient granular shock waves and upstream motion on a staircase,
Phys. Rev. E, 80, 011305 (2009).

[33] D. Lohse and D. van der Meer,
Granular matter: Structures in sand streams (“News and views”),
Nature 459, 1065 (2009).

[32] P. Eshuis, K. van der Weele, E. Calzavarini, D. Lohse, and D. van der Meer,
Exploring the limits of granular hydrodynamics: A horizontal array of inelastic particles ,
Phys. Rev. E 80, 011302 (2009).

[31] H.J. van Gerner, G. Caballero-Robledo, D. van der Meer, K. van der Weele, and M. van der Hoef
Coarsening of Faraday heaps: Experiment, Simulation, and Theory ,
Phys. Rev. Lett. 103, 028001 (2009).

[30] R. Bergmann, A. Andersen, D. van der Meer, and T. Bohr,
Pinch-off in a rotating flow,
Phys. Rev. Lett. 102, 204501 (2009).

[29] R. Bergmann, D. van der Meer, S. Gekle, A. van der Bos, and D. Lohse,
Controlled impact of a disk on a water surface: Cavity dynamics,
J. Fluid Mech. 633, 381-409 (2009).

[28] S. Gekle, J.M. Gordillo, D. van der Meer, and D. Lohse,
High-speed jet formation after solid object impact,
Phys. Rev. Lett. 102, 034502 (4 pages) (2009).
[See also: Phys. Rev. Focus, Vol. 23, story 3 (2009).]

[27] S. Gekle, A. van der Bos, R. Bergmann, D. van der Meer, and D. Lohse,
Noncontinuous Froude number scaling for the closure depth of a cylindrical cavity,
Phys. Rev. Lett. 100, 084502 (2008).

[26] R. Bergmann, E. de Jong, J.B. Choimet, D. van der Meer, and D. Lohse,
The origin of the tubular jet,
J. Fluid Mech. 600, 19-43 (2008).

[25] P.G. 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).

[24] H.J. van Gerner, M.A. van der Hoef, D. van der Meer, and K. van der Weele,
The interplay of air and sand: Faraday heaping unravelled,
Phys. Rev. E 76, 051305 (2007).

[23] G.A. Caballero Robledo, R.P.H.M. Bergmann, D. van der Meer, A. Prosperetti, and D. Lohse,
Role of air in granular jet formation,
Phys. Rev. Lett. 99, 018001 (2007).

[22] M. Versluis, C. Blom, D. van der Meer, K. van der Weele, and D. Lohse,
Leaping shampoo,
Phys. Fluids 19, 091106 (2007).

[21] D. van der Meer, K. van der Weele, P. Reimann, and D. Lohse,
Compartmentalized granular gases: Flux model results,
JSTAT 4, P07021 (2007).

[20] 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).

[19] M. Versluis, C. Blom, D. van der Meer, K. van der Weele, and D. Lohse,
Leaping shampoo and the stable Kaye effect,
JSTAT 3, P07007 (2006).

[18] R. Bergmann, D. van der Meer, M. Stijnman, M. Sandtke, A. Prosperetti, and D. Lohse,
Giant Bubble Pinch-Off,
Phys. Rev. Lett. 96, 154505 (2006).

[17] D. van der Meer and P. Reimann,
Temperature Anisotropy in a Driven Granular Gas,
Europhys. Lett. 74, 384 (2006).

[16] 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).

[15] R. Mikkelsen, K. van der Weele, D. van der Meer, M. van Hecke, D. Lohse,
Small-number statistics near the clustering transition in a compartmentalized granular gas,
Phys. Rev. E 71, 041302 (2005).

[14] 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. E 70, 061307 (2004).

[13] D. Lohse, R. Rauhé, R.P.H.M. Bergmann, D. van der Meer,
Creating a Dry Variety of Quicksand,
Nature 432, 689 (2004).

[12] D. Lohse, R.P.H.M. 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).

[11] D. van der Meer,
Compartmentalized Granular Gases: Clustering and Directed Transport, (pdf)
PhD thesis (University of Twente, Enschede, 2004).

[10] D. van der Meer, K. van der Weele, and D. Lohse,
Coarsening Dynamics in a Vibrofluidized Compartmentalized Granular Gas,
JSTAT 1, P04004 (2004).

[9] D. van der Meer, P. Reimann, K. van der Weele, and D. Lohse,
Spontaneous Ratchet Effect in a Granular Gas,
Phys. Rev. Lett. 92, 198003 (2004).

[8] D. van der Meer and K. van der Weele,
Breakdown of a near-stable granular cluster,
Prog. Theor. Phys. Suppl. 150, 297 - 311 (2003).

[7] R. Mikkelsen, K. van der Weele, D. van der Meer, M. Versluis, and D. Lohse,
Competitive Clustering in a Granular Gas,
Phys. Fluids 15, S8 (2003).

[6] M. Sandtke, D. van der Meer, M. Versluis, and D. Lohse,
Faraday, Jets, and Sand,
Phys. Fluids 15, S7 (2003).

[5] 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).

[4] 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, S14 (2002).

[3] D.van der Meer, K. van der Weele, and D. Lohse,
Sudden collapse of a granular cluster,
Phys. Rev. Lett. 88, 174302 (2002).

[2] D.van der Meer, K. van der Weele, and D. Lohse,
Bifurcation diagram for compartmentalized granular gases,
Phys. Rev. E 63, 061304 (2001).

[1] K. van der Weele and D. van der Meer and M. Versluis and D. Lohse,
Hysteretic clustering in granular gas,
Europhys. Lett. 53, 328-334 (2001).