Othmane Aouane
Othmane Aouane
Forschungszentrum Jülich, Helmholtz Institute Erlangen-Nürnberg for Renewable Energy
Verified email at fz-juelich.de
Cited by
Cited by
The plasma protein fibrinogen stabilizes clusters of red blood cells in microcapillary flows
M Brust, O Aouane, M Thiébaud, D Flormann, C Verdier, L Kaestner, ...
Scientific reports 4 (1), 1-6, 2014
Vesicle dynamics in a confined Poiseuille flow: from steady state to chaos
O Aouane, M Thiébaud, A Benyoussef, C Wagner, C Misbah
Physical Review E 90 (3), 033011, 2014
Computational genomics-proteomics and Phylogeny analysis of twenty one mycobacterial genomes (Tuberculosis & non Tuberculosis strains)
F Zakham, O Aouane, D Ussery, A Benjouad, MM Ennaji
Microbial informatics and experimentation 2 (1), 1-9, 2012
Vesicle dynamics under weak flows: Application to large excess area
A Farutin, O Aouane, C Misbah
Physical Review E 85 (6), 061922, 2012
The buckling instability of aggregating red blood cells
D Flormann, O Aouane, L Kaestner, C Ruloff, C Misbah, T Podgorski, ...
Scientific Reports 7 (1), 7928-7938, 2017
Clusters of red blood cells in microcapillary flow: hydrodynamic versus macromolecule induced interaction
V Clavería, O Aouane, M Thiébaud, M Abkarian, G Coupier, C Misbah, ...
Soft Matter 12 (39), 8235-8245, 2016
Hydrodynamic pairing of soft particles in a confined flow
O Aouane, A Farutin, M Thiébaud, A Benyoussef, C Wagner, C Misbah
Physical Review Fluids 2 (6), 063102, 2017
Shear thinning and shear thickening of a confined suspension of vesicles
AN Ouhra, A Farutin, O Aouane, H Ez-Zahraouy, A Benyoussef, C Misbah
Physical Review E 97 (1), 012404, 2018
Mesoscale simulation of soft particles with tunable contact angle in multicomponent fluids
M Wouters, O Aouane, T Krüger, J Harting
Physical Review E 100 (3), 033309, 2019
Mesoscale simulations of Janus particles and deformable capsules in flow
O Aouane, Q Xie, A Scagliarini, J Harting
High Performance Computing in Science and Engineering'17, 369-385, 2018
Modeling and simulation of the motion of deformable interfaces in a confined geometry: application to the study of the flow of red blood cells in microcirculation
O Aouane
Structure and rheology of suspensions of spherical strain-hardening capsules
O Aouane, A Scagliarini, J Harting
arXiv preprint arXiv:2003.04722, 2020
Margination, a phenomenon driven by collective hydrodynamic interactions
R Chachanidze, O Aouane, J Hartings, C Wagner, M Leonetti
APS, P29. 007, 2019
Hydrodynamic and macromolecules induced clusters of red blood cells in microcapillary flow
V Claveira, O Aouane, G Coupier, C Misbah, M Abkarian, C Wagner
APS, E24. 004, 2015
Modélisation et simulation du mouvement d'interfaces déformables dans une géométrie confinée: application à l'étude de l'écoulement des globules rouges dans la microcirculation
O Aouane
Grenoble Alpes, 2015
Differences between hydrodynamic and macromolecule induced clusters in microcapillary flow
C Wagner, V Claveria, O Aouane, G Coupier, C Misbah, M Abkarian
APS 2015, Q34. 013, 2015
Plasma protein induced clustering of red blood cells in micro capillaries
C Wagner, M Brust, O Aouane, D Flormann, M Thiebaud, C Verdier, ...
APS, R23. 007, 2013
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