Journal Articles
[46] Marine foams impede metabolic and behavioural traits in the rough periwinkle Littorina saxatilis
Seuront L., Henry S., Breton E., Spilmont N., Elias F.,
Marine Environmental Research 197, 106486 (2024)
doi.org/10.1016/J.marenvres.2024.106486
[45] Deformation of soap bubbles in uniform magnetic fields
Mawet S., Caps H., Dorbolo S., Elias F.,
Soft Matter, 19 (43), 8318-8328 (2023)
[44] La théorie des deux mondes, un outil d’analyse d’une pratique enseignante innovante à l’université : le cas de l’enseignement de la physique par l’escalade
De Hosson C., Elias F.,
RDST – Recherches en didactique des sciences et des technologies, ENS Éditions, 2022, 24, pp.185-210 (2022)
[43] The roles of plankton and neuston microbial organic matter in climate regulation
Jenkinson I. R. , Berdalet E. , Chin W.-C., Denis M., Ding H., Duan J. , Elias F., Emri I., Karn S. K., Li Z., Malej A., Mari X., Seuront L., Sun J., Wyatt T., Zhang W., Wurl O.,
Journal of Plankton Research 1-21 (2021)
doi 10.1093/plankt/fbab067
[42] Rebound and scattering of motile Chlamydomonas algae in confined chambers
Thery A., Wang Y., Dvoriashyna M., Eloy C., Elias F., Lauga E.,
Soft Matter 17, 4857-487 (2021)
doi 10.1039/D0SM02207A
[41] Trapping of swimming microalgae in foam
Roveillo Q., Dervaux J., Wang Y., Rouyer F., Zanchi D., Seuront L., Elias F.,
J. R. Soc. Interface 17 : 20200077 (2020)
doi 10.1098/rsif.2020.0077
Emphasized in : CNRS communiqué de presse
[40] The Acoustics of Liquid Foams
Elias F., Crassous J., Derec C., Dollet B., Drenckhan W., Gay C., Leroy V., Noûs C., Pierre J., Saint-Jalmes A.,
Current Opinion in Colloid & Interface Science 50:101391 (2020)
doi 10.1016/j.cocis.2020.101391
[39] Acoustic absorption of solid foams with thin membranes
Gaulon C., Pierre J., Derec C., Jaouen L., Bécot F.-X., Chevillotte F., Elias F., Drenckhan W., Leroy V.,
Applied Physics Letters 112, 261904 (2018)
doi 10.1063/1.5025407
[38] Dissipation of ultrasonic and audible sound waves in liquid foams
Gaulon C., Pierre J., Leroy V., Elias F., Derec C.,
Acta acustuca united with Acustica 104, 193 (2018)
doi 10.3813/AAA.919160
[37] Biological modification of surface-microlayer mechanical properties, including waves, ripples, foam and air-sea fluxes
Jenkinson I. R., Seuront L., Elias F.,
Elementa: Science of the Anthropocene, 6:26 (2018)
https://doi.org/10.1525/elementa.283
[36] Investigating the origin of acoustic attenuation in liquid foams
Pierre, Gaulon C., C., Derec C., Elias F., Leroy V.
Eur. Phys. J. E 43, 73 (2017)
doi 10.1140/epje/i2017-11562-0
[35] Sound and Vision: Visualization of music with a soap film
Gaulon C., Derec C., Combriat T., Marmottant P., Elias F.,
Eur. J. Phys. 38, 045804 (2017)
doi 10.1088/1361-6404/aa7147
Emphasized in : CNRS INSIS actualités
[34] Vibration of soap films and Plateau borders, as elementary blocks of a vibrating liquid foam
Elias F., Kosgodagan Acharige S., Rose L., Gay C., Leroy V., Derec C.,
Coll. Surf. A. 534, 85 (2017)
[33] Enseigner la Physique à l’Université
Barbi M., Blanc G., Elias F., Fautrat S., de Hosson C., Rio E., Rouyer F.,
Reflets de la Physique, n° 46, 35 (2015).
[32] Propagation of a transverse wave on a foam microchannel
Derec C., Leroy V., Kaurin D., Arbogast L., Gay C., Elias F.,
Europhys. Lett. 112, 34004 (2015).
[31] An FFT approach to the analysis of dynamic properties of gas/liquidinterfaces
Mariot S., Leroy V., Pierre J., Elias F., Bouthemy E., Langevin D., Drenckhan W.,
Soft Matter 10, Coll. Surf. A, 473, 11 (2015).
[30] A simple technique for the automation of bubble size measurements
Gaillard T., Honorez C., Jumeau M., Elias F., Drenckhan W.,
Coll. Surf. A, 473, 68 (2015).
[29] Soap film vibration: origin of the dissipation
Kosgodagan Acharige S., Elias F., Derec C.,
Soft Matter 10, 8341 (2014).
[28] Elasticity of a soap film junction
Elias F., Janiaud E., Bacri J.-C., Andreotti B.,
Phys. Fluids 26, 037101 (2014).
[27] Shaving foam: A complex system for acoustic wave propagation
Pierre J., Leroy V., Saint-Jalmes A., Dollet B., Ben Salem I., Crassous J., Guillermic R.-M., Drenckhan W., Elias F.,
POMA 19, 045044 (2013)
[26] Acoustic characterisation of liquid foams with an impedance tube
Pierre J., Guillermic R. M., Elias F., Drenckhan W., Leroy V.,
Eur. Phys. J. E. 36, 113 (2013)
[25] A technique for measuring velocity and attenuation of ultrasound in liquid foams
Pierre J., Elias F.., Leroy V.,
Ultrasonics, 53, 622-629 (2013)
[24] Highly structured porous solids from liquid foam templates
Van der net A., Gryson A., Ranft M., Elias F., Stubenrauch C., Drenckhan W.,
Coll. Surf. A, 346, 5-10 (2009)
[23] Soap flms under large-amplitude oscillations
Drenckhan W., Dollet B., Hutzler S., Elias F.,
Phil. Mag. Lett., 88, 669-677 (2008)
[22] When a crack is oriented by a magnetic field
Pauchard L., Elias F., Boltenhagen P., Cebers A., Bacri J.-C.,
Phys. Rev. E, 77, 021402/1 (2008)
[21] Visualisation of sound waves using regularly spaced soap flms
Elias F., Hutzler S., Ferreira Mauro S.,
Eur. J. Phys., 28, 755-765 (2007)
[20] Magnetic soap films and magnetic soap foams
Elias F., Bacri J.-C., Flament C., Janiaud E., Talbot D., Drenckhan W., Hutzler S.,Weaire D.,
Coll. Surf. A, 263, 65-75 (2005)
[19] Two-dimensional flow of foam around obstacles : force measurements
Dollet B., Elias F., Quilliet C., Raufaste C., Aubouy M., Graner F.,
Phys. Rev. E 71, 031403-1-031404-11 (2005)
[18] Two-dimensional flows of foam : drag exerted on circular obstacles and dissipation
Dollet B., Elias F., Quilliet C., Huillier A., Aubouy M., Graner F.,
Coll. Surf. A, 263 101-110 (2005)
[17] Magnetic forces in 2D foams
Janiaud E., Bacri J.-C., Cebers A., Elias F.,
J. Mag. Mag. Mat. 289, 215-219 (2005)
[16] Two-dimensional shear modulus of a Langmuir foam
Courty S., Dollet B., Elias F., Graner F.,
Europhys. Lett., 64, 709 (2003)
+ erratum : Dollet B., Elias F., Graner F, Europhys. Lett., 88, 69901 (2009)
[15] Bubble size control and measurement in the generation of ferrofluid foams
Drenckhan W., Elias F., Hutzler D., Weaire D., Janiaud E., Bacri J.-C.,
J. Appl. Phys. 93, 10078 (2003)
[14] Local rheological probes for complex fluids : application to Laponite suspensions
Wilhelm C., Elias F., Browaeys J., Ponton A., Bacri J.-C.,
Phys. Rev. E 80, 297 (2002)
[13] Hutzler S., Weaire D., Elias F., Janiaud E.,
Phil. Mag. Lett. 289, 215-219 (2000)
« Juggling with bubbles in cylindrical ferrofluid foams »
[12] Spinning ferrofluid microscopic droplets
Janiaud E., Elias F., Bacri J.-C., Cabuil V., Perzynski R.,
Magnetohydrodynamics 36, 365 (2000)
[11] Ageing of natural rubber under stress
Clarke, S. M., Elias F., Terentjev E. M.,
Eur. Phys. J. E 2, 335 (2000)
[10] Nematic order drives phase separation in polydisperse liquid crystalline polymers
Elias F., Clarke, S. M., Peck R., Terentjev E. M.,
Macromolecules 33, 2060 (2000)
[9] Equilibrium textures in main chain liquid crystalline polymers
Elias F., Clarke, S. M., Peck R., Terentjev E. M.,
Europhys. Lett. 47, 442 (1999)
[8] Pressure difference induced by curvature at the interface of a ferrofluid
Elias F., Flament C., Bacri J.-C.,
Magnetohydrodynamics 35, 303 (1999)
[7] Two-dimensional ferrofluid foam in an external force field : gravity arches and topological defects
Elias F., Bacri, Henry de Mougins F., Spengler T.,
Phil. Mag. Lett. 79, 389 (1999)
[6] Foams out of stable equilibrium : cell elongation and side swapping
Elias F., Flament C., Glazier J., Graner F., Jiang Y.,
Phil. Mag. B 79, 729 (1999)
[5] Undulation instability in two-dimensional foams of magnetic fluid
Elias F., Drikis I., Cebers A., Flament C., Bacri J.-C.,
Eur. Phys J. B 3, 203 (1998)
[4] Macro-organised patterns in a ferrofluid layer : experimental studies
Elias F., Flament C., Bacri J.-C., Neveu S.,
J. Phys. I 7, 711 (1997)
[3] Two – dimensional magnetic liquid froth : coarsening and topological correlations
Elias F., Flament C., Bacri J.-C., Graner F.,Cardoso O.,
Phys. Rev. E 56, 3310 (1997)
[2] Motion of an asymmetric ferrofluid drop under a homogeneous time-dependent magnetic field
Elias F., Flament C., Bacri,
Phys. Rev. Lett. 77, 643 (1996)
[1] Parallel stripes of ferrofluid as a macroscopic bidimensional smectic
Flament C., Bacri J.-C., Cebers A., Elias F., Perzynski R.,
Europhys. Lett. 34, 225 (1996)
Book and Book chapter
Les Mousses. Structure et Dynamique
I. Cantat, S. Cohen-Addad, F. Elias, F. Graner, R. Höhler, O. Pitois, F. Rouyer, A. Saint-Jalmes,
Coll. Echelles, Ed. Belin, 2010
In English: Foams. Structure and Dynamics
trad. R. Flaman, Ed. S. Cox,
Oxford University Press, 2013.
In Japanese
Auto-organisation à l’équilibre. Le ferrofluide : un système modèle,
J.-C. Bacri, F. Elias,
in « Morphogénèse. L’origine des formes »,
sous la direction de P. Bourgine et A. Lesnes, Coll. Echelles, Ed. Belin, 2006
In English: Ferrofluids : a model system of self-organised equilibrium,
J.-C. Bacri, F. Elias,
in « Morphogenesis, origins of patterns and shapes »,
P. Bourgine and A. Lesne Eds, Springer, 2011, pp. 15-39