Publications

International journal articles with lecture committee

[51] Scaling the tail beat frequency and swimming speed in underwater undulatory swimming
J. Sanchez-Rodriguez, C. Raufaste and M. Argentina , Nat Commun 14, 5569 (2023).

[50] Impact of composite soft-rigid elastic projectiles: A numerical study
C. D'Angelo, G. Giombini, F. Celestini and C. Raufaste , Phys. Rev. E 108, 015001 (2023).

[49] Three-dimensional liquid foam flow through a hopper resolved by fast X-ray microtomography
F. Schott, B. Dollet, S. Santucci, C. Claudet, M. Argentina, C. Raufaste and R. Mokso , Soft Matter 19, 1300--1311 (2023).
The paper is selected for the Soft Matter cover, volume 19, issue 7, Feb. 2023

[48] Reinforcement learning approach to control an inverted pendulum: A general framework for educational purposes
S. Israilov, L. Fu, J. Sánchez-Rodríguez, F. Fusco, G. Allibert, C. Raufaste and M. Argentina , PLOS ONE 18(2), e0280071 (2023).

[47] Atomistic Description of Interdroplet Ice-Bridge Formation during Condensation Frosting
S. Curiotto, D. Paulovics, C. Raufaste, F. Celestini, T. Frisch, F. Leroy, F. Cheynis and P. Müller, Langmuir 39, 579--587 (2023).

[46] Redistribution of translational kinetic energy: the surprises of bounces
C. D'Angelo, L. Viennot, M. Argentina, F. Celestini and C. Raufaste, Eur. J. Phys. 43, 065702 (2022).

[45] Collapse of a hemicatenoid bounded by a solid wall: instability and dynamics driven by surface Plateau border friction
C. Raufaste, S. Cox, R. E. Goldstein and A. I. Pesci, Soft Matter 18, 4944--4952 (2022).
arXiv

[44] Dynamics of Frost Propagation on Breath Figures
D. Paulovics, C. Raufaste, T. Frisch, C. Claudet and F. Celestini, Langmuir 38, 2972--2978 (2022).

[43] Use of compliant actuators for throwing rigid projectiles
G. Giombini, J.Mathiesen, C. D'Angelo, M. Argentina, C. Raufaste and F. Celestini, Phys. Rev. E 105, 025001 (2022).

[42] Geometrical Evolution of Surfaces Dynamics of the Gaussian Curvature of a Collapsing Soap Film
R. E. Goldstein, A. I. Pesci, C. Raufaste and J. D. Shemilt, Phys. Rev. E 104, 035105 (2021).

[41] Actuating water droplets on liquid infused surfaces: A rickshaw for droplets
C. Raufaste, S. J. Cox and F. Celestini, Phys. Rev. Fluids. 6, 083603 (2021).

[40] Effect of gravity on the orientation and detachment of cubic particles adsorbed at soap film or liquid interfaces
I. T. Davies and C. Raufaste, Soft Matter 17, 6964--6971 (2021).

[39] Proprioceptive mechanism for bioinspired fish swimming
J. Sanchez-Rodriguez, F. Celestini, C. Raufaste and M. Argentina, Phys. Rev. Lett. 126, 234501 (2021).
The paper is listed as one of the editors' suggestions. It is featured in Physics: Robo-Fish Replicates Real Swimming Action and in Phys.org: A proprioceptive mechanism to enable fish-like swimming in robots.

[38] Impact dynamics of composite elastorigid projectiles onto solid surfaces
C. D'Angelo, L. Viennot, M. Argentina, F. Celestini and C. Raufaste, Phys. Rev. E 103, 053005 (2021).

[37] Drag analysis with a self-propelled flexible swimmer
D. Gross, Y. Roux, C. Raufaste and M. Argentina, Phys. Rev. Fluids 6, 053101 (2021).

[36] Contact layer as a propelling advantage in throwing
F. Celestini, J. Mathiesen, M. Argentina and C. Raufaste, Phys. Rev. Applied 14, 044026 (2020).
The paper is featured in Physics: Springy Material Boosts Projectile Performance and in Le Monde: Du gel pour transformer les solides en excellents sauteurs.

[35] Quasi two-dimensional foam flow through and around a permeable obstacle
N. Shmakova, T. Chevalier, A. Puisto, M. Alava, C. Raufaste and S. Santucci, Phys. Rev. Fluids 5, 093301 (2020).
The paper has led to a book chapter in: Médici, E.F., Otero, A.D. (eds) Album of Porous Media. Springer, Cham (2023).

[34] A minimal model of self propelled locomotion
J. Sanchez-Rodriguez, C. Raufaste and M. Argentina, J. Fluids Struct. 125, 103071 (2020).

[33] Stress-Induced Dinoflagellate Bioluminescence at the Single Cell Level
M. Jalaal, N. Schramma, A. Dode, H. de Maleprade, C. Raufaste, R. E. Goldstein,   Phys. Rev. Lett. 125, 028102 (2020).
arXiv
The paper is listed as one of the editors' suggestions. It is featured in Physics: Flashes bright when squeezed tight: How single-celled organisms light up the oceans and in Physics Today: Mechanically stressed phytoplankton light up.

[32] Ferrofluid Leidenfrost droplets
C. D'Angelo, C. Raufaste, P. Kuzhir, F. Celestini,   Soft Matter 15, 5945--5950 (2019).
e-print

[31] Experimental characterization of droplet adhesion: the Ejection Test Method (ETM) applied to surfaces with various hydrophobicity
G. Ramos Chagas, F. Celestini, C. Raufaste, A. Gaucher, D. Prim, S. Amigoni, F. Guittard, T. Darmanin,   J. Phys. Chem. A 122, 8693--8700 (2018).
e-print

[30] Study of the thrust-drag balance with a swimming robotic fish
F. Gibouin, C. Raufaste, Y. Bouret, M. Argentina,   Phys. fluids 30, 091901 (2018).
e-print

[29] Foam flows through a local constriction
T Chevalier, J. Koivisto, N. Shmakova, M. J. Alava, A Puisto., C. Raufaste, S. Santucci,   J. Phys.: Conf. Ser. 925, 012025 (2017).
e-print

[28] Melde's experiment on a vibrating liquid foam microchannel
A. Cohen, N. Fraysse, C. Raufaste,   Phys. Rev. Lett. 119, 238001 (2017).
e-print
The paper is featured in Physics with a Focus story written by Michael Schirber: Liquid String Vibrations.

[27] Superpropulsion of droplets and soft elastic solids
C. Raufaste, G. Ramos Chagas, T. Darmanin, C. Claudet, F. Guittard, F. Celestini,   Phys. Rev. Lett. 119, 108001 (2017).
e-print
The paper is listed as one of the editors' suggestions from the Physical Review Letters and is featured in Physics with a Focus story written by Philip Ball: Superpropulsion of liquid drops. Other highlights in Physics World (IOP), Pour la Science and Science & vie.

[26] Solitary-like waves in a liquid foam microchannel
Y. Bouret, A. Cohen, N. Fraysse, M. Argentina, C. Raufaste,   Phys. Rev. F 1, 043902 (2016).
e-print

[25] Bubble dynamics inside an outgassing hydrogel confined in a Hele-Shaw cell
F. Haudin, X. Noblin, Y. Bouret, M. Argentina, C. Raufaste,   Phys. Rev. E 94, 023109 (2016).
e-print

[24] Reactive Leidenfrost droplets
C. Raufaste, Y. Bouret, F. Celestini,   Europhys. Lett. 114, 46005 (2016).
e-print
The paper is listed as one of the editors' choice

[23] Scale selection in columnar jointing: insights from experiments on cooling stearic acid and numerical simulations
A. Christensen, C. Raufaste, M. Misztal, F. Celestini, M. Guidi, C. Ellegaard, J. Mathiesen,   J. Geophys. Res. Solid Earth 121, 1462--1482 (2016).
e-print

[22] Three-dimensional foam flow resolved by fast X-ray tomographic microscopy
C. Raufaste, B. Dollet, K. Mader, S. Santucci, R. Mokso,   Europhys. Lett. 111, 38004 (2015).
e-print

[21] Drop coalescence and liquid flow in a single Plateau border
A. Cohen, N. Fraysse, C. Raufaste,   Phys. Rev. E 91, 053008 (2015).
e-print

[20] Hole growth dynamics in a two dimensional Leidenfrost droplet
C. Raufaste, F. Celestini, A. Barzyk, T. Frisch,   Phys. fluids 27, 031704 (2015).
e-print

[19] One-dimensional capillary jumps
M. Argentina, A. Cohen, Y. Bouret, N. Fraysse, C. Raufaste,   J. Fluid Mech. 765, 1--16 (2015).
e-print
The paper is selected for the J. Fluid Mech. cover, issue 765, Feb. 2015

[18] Rheology of aqueous foams
B. Dollet, C. Raufaste,   C. R. Phys. 15, 731--747 (2014).
e-print

[17] Inertial mass transport and capillary hydraulic jump in a liquid foam microchannel
C. Cohen, N. Fraysse, J. Rajchenbach, M. Argentina, Y. Bouret, C. Raufaste,   Phys. Rev. Lett. 112, 218303 (2014).
e-print
The paper is listed as one of the editors' suggestions from the Physical Review Letters and is highlighted by the Physics Institute of the CNRS.

[16] Two dimensional Leidenfrost droplets in a Hele-Shaw cell
F. Celestini, T. Frisch, A. Cohen, C. Raufaste, L. Duchemin, Y. Pomeau,   Phys. fluids 26, 032103 (2014).
e-print
The paper is listed as one of the research highlights from Physics of fluids

[15] Deformation of a free interface pierced by a tilted cylinder: variation of the contact angle
C. Raufaste, S. Cox,   Coll. Surf. A 438, 126--131 (2013).
e-print

[14] Quantitative 3D characterization of cellular materials: Segmentation and morphology of foam
K. Mader, R. Mokso, C. Raufaste, B. Dollet, S. Santucci, J. Lambert, M. Stampanoni,   Coll. Surf. A 415, 230--238 (2012).
e-print

[13] Jet impact on a soap film
G. Kirstetter, C. Raufaste, F. Celestini,   Phys. Rev. E 86, 036303 (2012).
e-print
The study has inspired the problem Jet and film of the Young Physicists Tournaments 2013.

[12] Deformation of a free interface pierced by a tilted cylinder
C. Raufaste, G. Kirstetter, F. Celestini, S. J. Cox,   Europhys. Lett. 99, 24001 (2012).
e-print

[11] The mechanism of porosity formation during solvent-mediated phase transformations
C. Raufaste, B. Jamtveit, T. John, P. Meakin, D. K. Dysthe,   Proc. R. Soc. A 467, 1408--1426 (2011).
e-print

[10] Understanding and predicting viscous, elastic, plastic flows
I. Cheddadi, P. Saramito, B. Dollet, C. Raufaste, F. Graner,   Eur. Phys. J. E 34, 1 (2011).

[9] Morphological transitions in partially gas-fluidized granular mixtures
A. Nermoen, C. Raufaste, S. D. deVilliers, E. Jettestuen, P. Meakin, D. K. Dysthe,   Phys. Rev. E 81, 061305 (2010).

[8] Discrete rearranging disordered patterns: Prediction of elastic and plastic behavior, and application to two-dimensional foams
C. Raufaste, S. J. Cox, P. Marmottant, F. Graner,   Phys. Rev. E 81, 031404 (2010).
e-print

[7] Dissipation in quasi-two-dimensional flowing foams
C. Raufaste, A. Foulon, B. Dollet,   Phys. fluids 21, 053102 (2009).

[6] Numerical modelling of foam Couette flows
I. Cheddadi, P. Saramito, C. Raufaste, P. Marmottant, F. Graner,   Eur. Phys. J. E 27, 123-133 (2008).

[5] Discrete rearranging disordered patterns, part II: 2D plasticity, elasticity and flow of a foam
P. Marmottant, C. Raufaste, F. Graner,   Eur. Phys. J. E 25, 371-384 (2008).
e-print

[4] Discrete rearranging disordered patterns, part I: Robust statistical tools in two or three dimensions
F. Graner, B. Dollet, C. Raufaste, P. Marmottant,   Eur. Phys. J. E 25, 349-369 (2008).
e-print

[3] Yield drag in a 2D foam flow around a circular obstacle: Effect of liquid fraction
C. Raufaste, B. Dollet, S. J. Cox, Y. Jiang, F. Graner,   Eur. Phys. J. E 23, 217-228 (2007).
e-print

[2] 2D flow of foam around obstacles: force measurements
B. Dollet, F. Elias, C. Quilliet, C. Raufaste, M. Aubouy, F. Graner,   Phys. Rev. E 71, 031403/1-11 (2005).
e-print

[1] Penetration of negatively buoyant jet in a miscible liquid
P. Philippe, C. Raufaste, P. Kurowski, P. Petitjeans,   Phys. fluids 17(5), 601_1-601_10 (2005).

Phd Thesis

RHEOLOGIE ET IMAGERIE DES ECOULEMENTS 2D DE MOUSSE : approche expérimentale, numérique et théorique
University of Grenoble, 2007 (32 MB).
Committee: S.J. Cox, I. Cantat, S. Cohen-Addad, A. Ammar, F. Graner.

HDR Thesis

Dynamique d'objets capillaires et écoulement aux interfaces libres
Université Côte d'Azur, 2017.
Committee: I. Cantat, C. Clanet, N. Vandewalle, F. Graner, M. Argentina, E. Villermaux.