AAP « post-doctorants » n°4
L'institut finance trois post-doctorants pour une durée maximale de 24 mois (12 mois + reconduction possible de 12 mois) à partir d'octobre 2023.
Projets et Porteurs | Candidat recruté et description du sujet |
Acoustofluidics in the micro-environment of bone cells : assessment of mechanical stimuli sujet encadré par Carine GUIVIER-CURIEN (IRPHE), Cécile BARON (IRPHE), Philippe LASAYGUES (LMA) |
candidate sélectionnée Mme. Elisa GHIRINGHELLI (IMFT, Toulouse, France) Bone is a mechanosensitive living tissue subjected to constant remodeling in response to mechanical constraints. Bone remodeling is a skillful balance between the action of bone-forming cells (osteoblasts), and bone-resorbing cells (osteoclasts) orchestrated by bone-mechanosensing cells (osteocytes). However, this natural process is insufficient to address numerous bone disorders such as complex bone fracture or bone cancer, in which bone reconstruction must be assisted. As mechanical waves, ultrasound can provide additional local mechanical stimulation and potentially restore the balance of bone remodeling. (...) |
Self-contracting vascular solids sujet encadré par Martin BRANDENBOURGER (IRPHE) & Joel MARTHELOT (IUSTI) |
candidat sélectionné M. Faisal AHMAD (Laboratoire Rhéologie et Procédés, Université Grenoble Alpes, France) Inspired by nature, pneumatic soft robots use vascular networks and external pumps to twist, deform, move and bend in ways that traditional hard robots cannot. So far, these soft robots lack autonomy compared to organisms, which control fluid transport in vascular networks in much more advanced ways. From animals to fungi, one of the most efficient fluid transport mechanism is based on vessels that can actively contract upon local sensing of stimuli. This adaptative fluid transport enables advanced functionalities in organisms such as autonomous locomotion toward objectives. The main goal of the proposed research is to design self-contracting vascular networks to study active solids that deform upon sensing.(...) |
WTDI - Elastic waves in metamaterials with time-modulated interfaces sujet encadré par Bruno LOMBARD (LMA) |
candidat sélectionné M. Michaël DARCHE (Laboratoire GéoEND, Université Gustave Eiffel, Bouguenais, France) By structuring materials, it is possible to control waves and obtain surprising effects: high-resolution lenses, directional antennas, invisibility cloaks, etc. This is the paradigm of metamaterials, a field of research that has been very active since the early 2000s and which promises many technological developments, for example improving Wi-Fi coverage or insulating buildings against seismic waves. However, the properties accessible with these materials also have limits, given by the usual laws of physics. Reciprocity is one of these laws [4]. In the linear regime and without flow, a wave transmitted between two points remains the same when the source and receiver are interchanged. Breaking the reciprocity makes it possible to control the waves in a novel way by making directional band gaps possible. Applications include wave filtering, diode design and logic gates in elastodynamics.(...) |
Courriel : imi-contact@univ-amu.fr