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Thèses et Post-docs

  • 01 NOV 30 OCT
    Project financed by an ERC grant.The share of the world's population living in cities is rapidly increasing, and it is expected to rise to 80% by 2050. It is therefore crucial to develop new efficient and reliable methods to model the urban microclimate; in fact, these models can support urban planners and policymakers to create more comfortable and sustainable cities. High computational requirements limit existing numerical methodologies, and DANTE fits in this context and aims to create a new paradigm for fast and reliable numerical simulations bridging the fields of model order reduction, machine learning, and data assimilation. The idea is to create a research team to answer many unresolved questions in model order reduction for complex and real-life urban microclimate simulations. Particular emphasis will be given to advanced machine learning tools, which incorporate physics knowledge, aiming to improve the accuracy, interpretability, and reliability of predictive models.
  • 01 OCT 30 SEP
    The aim of the Thesis is to characterize and better understand the interaction dynamics between a vortex ring and a freely moving body, for a panel of situations featuring vortex rings of well-controlled intensity and size interacting with bubbles, solid spheres, as well as rigid and flexible cylinders of various aspect ratios. The state-of-the-art time-resolved 3D-PTV technique coupled to a shadowgraphy technique will be used to capture simultaneously the bodykinematics, the body deformation as well as the surrounding fluid motion.
  • 01 OCT 01 NOV
    he subject of this thesis is the understanding, modelling and numerical simulation of the transport of solutes, whether passive or reactive, in porous, permeable, heterogeneous and/or fractured media. The most immediate field of application is geological media, often with environmental concerns (sensitivity to contaminants, pollution clean-up), but geothermal energy also falls into this category if the solute is heat.One of the most decisive aspects, and one that is difficult to take into account in modelling, concerns mass transfers between zones of strongly contrasting properties, and in particular between fractures (which constitute the preferential paths) and the matrix (which contains most of the possible accumulation volume, and is the site of possible sorptions and/or reactions).
  • 01 OCT 30 SEP
    L’équipe Curiosity de l’institut Pprime souhaite recruter un.e doctorant.e (ou un.e post-doctorant.e) dans le cadre d’une collaboration avec les Voies Navigables de France (VNF) et le Laboratoire de Mathématiques et Applications (LMA) de Poitiers afin d’étudier la navigation en milieu confiné dans une optique d’interaction fluide-structures. En complément à un post-doctorat en cours sur une revisite des travaux théoriques sur les effets de confinement hydraulique et ondulatoire pour un bateau fluvial en interaction avec l’ouvrage (typiquement un canal à forme trapézoïdal), nous souhaitons désormais alimenter les études théoriques par des expériences permettant de cribler les modèles ainsi que de guider les modélisateurs vers les modèles pertinents du fait de lacunes dans la compréhension des phénomènes tels que révélées par l’analyse de la littérature et que les expériences pourraient combler.
  • 01 OCT 30 SEP
    Analogue Gravity allows us to mimic the propagation of fields in curved spacetime with waves in a condensed matter system, thus making certain gravitational phenomena accessible to experiment. The best-known example of such a phenomenon is Hawking radiation, which is likely far too weak to be observed in an astrophysical context. The system of surface waves on an open channel flow is studied for this purpose at Institut Pprime in Poitiers. An analogue of the Hawking effect takes place at an effective horizon where the flow speed becomes faster than the wave speed. While this effect has been observed, the Hawking regime in which the scattering behaves in accordance with a thermal (Planck) spectrum has yet to be realized in a water wave system. The goal of this thesis will be to provide theoretical insight into how to reach the Hawking regime and the optimisation of the seeding of the Hawking process.
  • 01 OCT 30 SEP
    This PhD project aims at modelling the dynamics of long flexible fibers in wall-bounded turbulent flows, in particular close to the walls where the turbulence is inhomogeneous and anisotropic. To tackle this challenging problem, the project will primarily utilize an experimental approach complemented by direct numerical simulations and physical modelling.
  • 01 OCT 30 SEP
    The aim of the project is to develop, analyze, validate and compare reduced data assimilation technique for 3D incompressible turbulent flows. The point of departure is the stochastic closure modeling procedure and the existing code coupled with the C++ solver Ithaca FV. The PhD student will acquire a broad vision of the data assimilation process and its limitation: from the theory, to the implementation, the data qualification and the experiments. Both synthetic and experimental data will be considered. We shall also consider the efficient treatment of unknown turbulent inflow conditions and the development of efficient hyper-reduction techniques to handle nonlinear terms.
  • 01 OCT 30 SEP
    The aim of this thesis is to develop new tools and methodology for modelling andcontrol of bistable flows from data, by coupling state-of-the-art machine learning techniques withdynamical system theory. Closed-loop control will be implemented using model predictive control.
  • 01 OCT 30 SEP
    The aim of the project is to develop and analyze a model reduction technique for the simulation of parametric incompressible turbulent (chaotic) flows. The point of departure is the stochastic closure modeling procedure ; we shall consider the efficient treatment of parametric boundary conditions and the development of efficient hyper-reduction techniques to handle nonlinear terms.Application to large-scale three-dimensional problems will be pursued by integrating the methodology in the C++ solver Ithaca FV.
  • 01 OCT 30 SEP
    Proposition de thèseModélisation stochastique pour la dynamique des particules en turbulence hétérogèneEncadrants : Rémi Zamansky, Pascal Fede, Olivier SimoninContact : remi.zamansky@imft.fr pascale.fede@imft.fr olivier.simonin@imft.fr Financement : Contrats Doctoraux MESRI 2024-2027
  • 01 SEP 30 APR
    The postdoc project involves developing and using the Wave Turbulence approach for describing random nonlinear waves in geophysical situations: internal and inertial waves in the ocean and atmosphere, water surface waves, planetary Rossby waves. The project includes advancing and validating the theoretical approach using the numerical simulations of the wave kinetic equations and comparing them with simulations of the dynamical fluid models, laboratory experiments and field observations. Applications to describing the ocean mixing and other transport phenomena important for weather and climate modeling will be considered.
  • 01 SEP 31 AUG
    We have funding for a Ph.D. position on fundamental turbulence modeling. The student will work in collaboration with the two advisors A. Alexakis in LPENS at École Normale Supérieure Paris, and S. Chibbaro LISN at Université Paris-Saclay. The goal of the Ph.D. would be to build and test a novel stochastic models using large-scale direct numerical simulations and machine learning. The potential candidate should have some familiarity with numerics, and motivation to study turbulent flows. For further information please see https://www.phys.ens.fr/~alexakis/StochasticModeling.html or contact us directly by email.
  • 01 SEP 31 AUG
    This project focuses on the dynamics of quantum vortices in rotating superfluid helium. In particular, it aims to provide numerical and theoretical support to the experiment CryoLEM at LEGI Grenoble. This unique experiment can produce and visualise in real time a stable vortex lattice in rotating superfluid helium. The successful applicant is expected to perform numerical simulations of the self-consistent model FOUCAULT. This recently developed model can accurately describe the interaction between quantum vortices and the normal fluid. More precisely, the project aims to understand the effect of rotation and counterflow (mean relative velocity between the superfluid and the normal fluid) on the dynamics of quantum vortices and the normal fluid. Other superfluid models might be used to complement and answer related scientific questions. This project contains an important numerical part, but analytical theories will be developed whenever possible.
  • 01 SEP 01 JUL
    Toutes les informations sur cette annonce de postdoc sont accessibles sur le portail du CNRS:https://emploi.cnrs.fr/Gestion/Offre/Default.aspx?Ref=UMR7648-SEBGAL-001
  • 01 SEP 31 AUG
    This Postdoc project aims at understanding the propagation of weakly nonlinear waves in anisotropic media. The isotropy of the system will emerge either from external sources (forcing) or might be intrinsic to the waves due to the physics of the problem. The main questions to understand is how non-linear wave interactions helps to recover isotropy and the stability of certain out-of-equilibrium solutions. The scientific problem will be addressed using the wave turbulence theory and studying solutions of the associated wave kinetic equations. To complement theoretical predictions, the successful applicant will perform numerical simulations of the wave kinetic equation and the original dynamical equation describing the whole physics. This postdoc position is, therefore, theoretical with an important numerical part using existent numerical codes.
  • 01 JUL 30 JUN
    This postdoctorate investigates the question of the influence of large structures on small scales and their fluctuations and vice versa in atmospherics dynamics.In particular, this postdoctorate will consist especially in performing Direct Numerical Simulations (DNS) of an idealized geophysical flow in the strongly stratified turbulence (SST) regime (i.e. small Froude number and high buoyancy Reynolds number) containing large structures called vertically-sheared horizontal flow, internal gravity waves and eddies. In addition, he will have to apply a new method for extracting large strutures, waves and vortices, developed in our team (Lam et.al. atmos 2020 , JFM 2021 & JFM 2023) and calculate thevelocity increments for each part.
  • 01 JUL 01 JUL
    The post holder will work at the Department of Low Temperature Physics, within a project focusing on the experimental study of wall-bounded flows of liquid helium-4.
  • 01 JUN 01 DEC
    L’étude proposée ici repose sur la comparaison de modèles numériques dédiées au transport sédimentaire pour identifier des modèles physiques locaux de transport sédimentaire. L’objectif est de comparer les résultats issus de simulations numériques sous OpenFoam à des mesures obtenues en laboratoire de transport sédimentaire à des échelles locales en temps et en espace. Ces mesures expérimentales ont été réalisées en configurations stationnaire et instationnaire pour différentes caractéristiques de sédiments. Des mesures de la réponse du lit sédimentaire, du taux d’érosion et des conditions hydrodynamiques (vitesses et hauteurs) ont été acquises et sont disponibles à partir des travaux de thèsefinancés par l’OFB et démarrés en Octobre 2022.
  • 01 FEB 01 FEB
    The mechanical engineering department of the LISN lab invites applications for a one-yearpostdoctorate position to conduct cutting-edge research at the intersection of turbulent naturalconvection, convolutional neural networks (CNN), physics-informed machine learning, and high-performance computing (HPC). The successful candidate will work on advancing the field of super-resolution analysis for turbulent fluid flows using innovative approaches based on numerical andexperimental ombroscopy techniques.

 

Emplois

  • 01 MAR 01 MAR
    Le poste, d'une durée initiale de deux ans, concerne la mise en place et laréalisation des essais de ces deux campagnes. Pour la première ils'agit de participer à la conception et la réalisation d'un canal hydraulique enspirale, intégré dans une cuve à placer dans l'aimant 4T du laboratoire Neel, dechoisir et étalonner des moyens de mesure de pression et débit compatibles avec le champ magnétique, et deréaliser les essais sous champ. Pour la seconde il s'agit de réaménager la boucle à eau salée existante pour la rendre compatible avec le futur aimant 10T, et de caractériser l'écoulement sans champ magnétique pardes mesures locales de vélocimétrie laser (en plus des mesures de débit et pression déjà utilisées à 4T).
  • 01 JAN 30 JUN
    Pour compenser le départ récent d'un collègue Maitre de conférences, l'UFR Phitem ouvre un poste de CDD enseignant chercheur pour 6 mois à l'Université Grenoble-Alpes. Les laboratoires éligibles pour la partie recherche de ce contrat sont LEGI, LIPhy et LRP. SVP, pourriez-vous diffuser ce profil au sein de vos laboratoires pour motiver des candidatures, par exemple d'un docteur venant de soutenir qui aurait du temps avant le démarrage d'un post-doc. Ca pourrait être aussi l'occasion de construire un post-doc ou une candidature sur un poste ultérieur (Noter par exemple qu'un poste de Maitre de Conférence en turbulence va ouvrir au LEGI cet hiver pour la rentée 2024). Le candidat devra effectuer des enseignements de licence ou master en mécanique, notamment mécanique des fluides. Merci de cliquer sur le lien ci-dessous pour davantage d'informations.
  • 09 JAN 30 JUN
    Poste PR au LMFA à l'École centrale de Lyon dans l'équipe "Turbulence & Instabiltés". Le profil recherche est très ouvert, il doit s'inscrire dans une des thématiques de l'équipe :Équipe Turbulence & Instabilités
  • 01 FEB 31 JUL
    Université Côte d’Azur is opening this year a Junior Professor Chair in “Soft Matter and Fluid Dynamics” at the Institut de Physique de Nice (INPHYNI).
  • 01 FEB 31 JUL
    Le CNRS ouvre une CPJ (Chaire Professeur Junior) CNRS, en Physique Statistique et IA pour un recrutement dans l'un de ces trois laboratoires : Institut de Physique Théorique de Saclay, Laboratoire Charles Coulomb Montpellier, Laboratoire de Physique de l’Ecole Normale Supérieure de Lyon.
  • 01 SEP
    Le maître de conférences recruté s’intègrera à l’équipe EDT (Ecoulements Diphasiques et Turbulence). Il devra proposer un projet de recherche original mais en forte cohérence avec les activités de cette équipe. Le projet de recherche devra être basé sur une approche majoritairement expérimentale utilisant notamment les grandes installations expérimentales du LEGI (soufflerie, veine hydraulique, colonne à bulles, plateforme Coriolis) et les équipements d’instrumentation mutualisés (imagerie rapide, PIV/PTV, PDI, fil chaud/froid ...).