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Aymen Laadhari
Aymen Laadhari
Khalifa University, ETH Zürich
Email verificata su ku.ac.ae - Home page
Titolo
Citata da
Citata da
Anno
Mathematical modelling of active contraction in isolated cardiomyocytes
R Ruiz-Baier, A Gizzi, S Rossi, C Cherubini, A Laadhari, S Filippi, ...
Mathematical Medicine and Biology: a Journal of the IMA 31 (3), 259-283, 2014
902014
Vesicle tumbling inhibited by inertia
A Laadhari, P Saramito, C Misbah
Physics of Fluids 24 (3), 2012
582012
Computing the dynamics of biomembranes by combining conservative level set and adaptive finite element methods
A Laadhari, P Saramito, C Misbah
Journal of Computational Physics 263, 328-352, 2014
492014
On the equilibrium equation for a generalized biological membrane energy by using a shape optimization approach
A Laadhari, C Misbah, P Saramito
Physica D: Nonlinear Phenomena 239 (16), 1567-1572, 2010
492010
Fully Eulerian finite element approximation of a fluid‐structure interaction problem in cardiac cells
A Laadhari, R Ruiz‐Baier, A Quarteroni
International journal for numerical methods in engineering 96 (11), 712-738, 2013
342013
Improving the mass conservation of the level set method in a finite element context
A Laadhari, P Saramito, C Misbah
Comptes Rendus. Mathématique 348 (9-10), 535-540, 2010
262010
Numerical modeling of heart valves using resistive Eulerian surfaces
A Laadhari, A Quarteroni
International journal for numerical methods in biomedical engineering 32 (5 …, 2016
242016
An adaptive finite element method for the modeling of the equilibrium of red blood cells
A Laadhari, P Saramito, C Misbah
International Journal for Numerical Methods in Fluids 80 (7), 397-428, 2016
232016
Eulerian finite element method for the numerical modeling of fluid dynamics of natural and pathological aortic valves
A Laadhari, G Székely
Journal of Computational and Applied Mathematics 319, 236-261, 2017
222017
A three-dimensional continuum model of active contraction in single cardiomyocytes
A Gizzi, R Ruiz-Baier, S Rossi, A Laadhari, C Cherubini, S Filippi
Modeling the heart and the circulatory system, 157-176, 2015
222015
Fully implicit finite element method for the modeling of free surface flows with surface tension effect
A Laadhari, G Székely
International Journal for Numerical Methods in Engineering 111 (11), 1047-1074, 2017
172017
Fully implicit methodology for the dynamics of biomembranes and capillary interfaces by combining the level set and Newton methods
A Laadhari, P Saramito, C Misbah, G Székely
Journal of Computational Physics, http://doi.org/10.1016/j.jcp.2017.04.019, 2017
172017
Implicit Finite Element methodology for the numerical modeling of incompressible two-fluid flows with moving hyperelastic interface
A Laadhari
Applied Mathematics and Computation 333 (C), 376-400, 2018
92018
Numerical modelling of the dynamics of red blood cells using the level set method
A Laadhari
http://www.theses.fr/2011GRENM011, 2011
9*2011
An operator splitting strategy for fluid–structure interaction problems with thin elastic structures in an incompressible Newtonian flow
A Laadhari
Applied Mathematics Letters 81 (C), 35-43, 2018
82018
Exact Newton method with third-order convergence to model the dynamics of bubbles in incompressible flow
A Laadhari
Applied Mathematics Letters 69, 138-145, 2017
62017
Computing the dynamics of biomembranes by combining conservative level set and adaptive finite element methods
A Laadhari, P Saramito, C Misbah
62011
A data‐driven optimal control method for endoplasmic reticulum membrane compartmentalization in budding yeast cells
A Laadhari, Y Barral, G Székely
Mathematical Methods in the Applied Sciences 46 (8), 8855-8876, 2023
52023
Warning about the Risk of Blood Flow Stagnation after Transcatheter Aortic Valve Implantation
A Laadhari, G Székely
International Journal of Mathematical, Computational, Physical, Electrical …, 2017
32017
Computational Modeling of Individual Red Blood Cell Dynamics Using Discrete Flow Composition and Adaptive Time-Stepping Strategies
A Laadhari, A Deeb
Symmetry 15 (6), 1138, 2023
22023
Il sistema al momento non puň eseguire l'operazione. Riprova piů tardi.
Articoli 1–20