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1. Motion and hydrodynamic resistance of an elastic bead confined in a square microchannel

Author

Moore, Charles Paul, Belkadi, Hiba, Safi, Brouna, Amselem, Gabriel, and Baroud, Charles N.

Subjects
Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter
Abstract

Cells and other soft particles are often forced to flow in confined geometries in both laboratory and natural environments, where the elastic deformation induces an additional drag and pressure drop across the particle. In contrast with other multiphase flows, the physical parameters that determine this additional pressure are still not known. Here we start by measuring the pressure drop across a single spherical hydrogel particle as it flows in a microfluidic comparator. This pressure is found to depend on the amount of confinement, elastic modulus, fluid viscosity and velocity. A model for the force balance on the particle is then proposed, by incorporating the above ingredients and relying on simulations of bead geometry and lubrication flow considerations. The final model collapses the force measurements forces onto a single scaling law spanning several decades, while providing physical insights by recalling elements from classic multiphase flows and contact mechanics., Comment: Main Text 4 Pages, Supp text 5 pages. 4 main text figures, 4 supp text figures

Published
2025

2. Estimation of the lifetime distribution from fluctuations in Bellman-Harris processes

Author

Olayé, Jules, Bouzidi, Hala, Aristov, Andrey, Ramos, Salomé Gutiérrez, Baroud, Charles, and Bansaye, Vincent

Subjects
Mathematics - Probability
Abstract

The growth of a population is often modeled as branching process where each individual at the end of its life is replaced by a certain number of offspring. An example of these branching models is the Bellman-Harris process, where the lifetime of individuals is assumed to be independent and identically distributed. Here, we are interested in the estimation of the parameters of the Bellman-Harris model, motivated by the estimation of cell division time. Lifetimes are distributed according a Gamma distribution and we follow a population that starts from a small number of individuals by performing time-resolved measurements of the population size. The exponential growth of the population size at the beginning offers an easy estimation of the mean of the lifetime. Going farther and describing lifetime variability is a challenging task however, due to the complexity of the fluctuations of non-Markovian branching processes. Using fine and recent results on these fluctuations, we describe two time-asymptotic regimes and explain how to estimate the parameters. Then, we both consider simulations and biological data to validate and discuss our method. The results described here provide a method to determine single-cell parameters from time-resolved measurements of populations without the need to track each individual or to know the details of the initial condition.

Published
2024

3. Nonlinear clogging of a rectangular slit by a spherical soft particle

Author

Moore, Charles Paul, Husson, Julien, Boudaoud, Arezki, Amselem, Gabriel, and Baroud, Charles N.

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Fluid Dynamics
Abstract

The capture of a soft spherical particle by a rectangular slit leads to a non-monotonic pressure-flow rate relation at low Reynolds number. In the presence of the trapped particle the flow-induced deformations focus the streamlines and pressure drop to a small region. This increases the resistance to flow by several orders of magnitude as the driving pressure is increased. As a result two regimes are observed: a flow-dominated regime for small particle deformations, where flow rate increases with pressure, and an elastic-dominated regime in which solid deformations block the flow., Comment: 5 pages, 4 figures

Published
2022
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4. Rheotaxis of chiral bacteria: from single-cell behavior to a population-level description

Author

Ronteix, Gustave, Josserand, Christophe, Lety-Stefanka, Adélaïde, Baroud, Charles N., and Amselem, Gabriel

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics, Physics - Fluid Dynamics
Abstract

Due to their morphology, the dynamics of bacteria suspended in media can exhibit complex behaviors. In the presence of a shear, swimming bacteria experience a drift perpendicular to the shear plane. This drift, termed rheotaxis, is studied here semi-analytically, numerically and experimentally. We find the dependency of bacterial orientation and bacterial speed on the shear rate, in the presence of rotational diffusion. This enables us to show that the drift speed of bacteria perpendicular to the shear is predominantly due to bacterial propulsion, and not rheotactic forces. Comparing the drift speed of bacteria and diffusion leads to the definition of a P\'{e}clet number. The rheotactic effect increases with the shear, reaching a plateau at very large P\'{e}clet numbers, in good agreement with experiments of rheotaxis performed in microfluidic droplets., Comment: 15 pages, 9 figures

Published
2022

9. Monitoring the orientation of rare-earth-doped nanorods for flow shear tomography

Author

Kim, Jongwook, Michelin, Sebastien, Gilberts, Michiel, Martinelli, Lucio, Chaudan, Elodie, Amselem, Gabriel, Fradet, Etienne, Boilot, Jean Pierre, Brouwer, Albert M., Baroud, Charles N., Peretti, Jacques, and Gacoin, Thierry

Subjects
Physics - Fluid Dynamics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Rare-earth phosphors exhibit unique luminescence polarization features originating from the anisotropic symmetry of the emitter ion's chemical environment. However, to take advantage of this peculiar property, it is necessary to control and measure the ensemble orientation of the host particles with a high degree of precision. Here, we show a methodology to obtain the photoluminescence polarization of Eu-doped LaPO4 nano rods assembled in an electrically modulated liquid-crystalline phase. We measure Eu3+ emission spectra for the three main optimal configurations ({\sigma}, {\pi} and {\alpha}, depending on the direction of observation and the polarization axes) and use them as a reference for the nano rod orientation analysis. Based on the fact that flowing nano rods tend to orient along the shear strain profile, we use this orientation analysis to measure the local shear rate in a flowing liquid. The potential of this approach is then demonstrated through tomographic imaging of the shear rate distribution in a microfluidic system., Comment: 8 pages, 3 figures + supplementary files for experimental and numerical methods

Published
2017
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10. Proteins that control the geometry of microtubules at the ends of cilia

Author

Louka, Panagiota, Vasudevan, Krishna Kumar, Guha, Mayukh, Joachimiak, Ewa, Wloga, Dorota, Tomasi, Raphaël F-X, Baroud, Charles N, Dupuis-Williams, Pascale, Galati, Domenico F, Pearson, Chad G, Rice, Luke M, Moresco, James J, Yates, John R, Jiang, Yu-Yang, Lechtreck, Karl, Dentler, William, and Gaertig, Jacek

Subjects
Biochemistry and Cell Biology, Biological Sciences, Pediatric, Genetics, Abnormalities, Multiple, Armadillo Domain Proteins, Cell Cycle Proteins, Cerebellum, Cilia, Eye Abnormalities, Humans, Kidney Diseases, Cystic, Microtubules, Protozoan Proteins, Retina, Tetrahymena thermophila, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Cilia, essential motile and sensory organelles, have several compartments: the basal body, transition zone, and the middle and distal axoneme segments. The distal segment accommodates key functions, including cilium assembly and sensory activities. While the middle segment contains doublet microtubules (incomplete B-tubules fused to complete A-tubules), the distal segment contains only A-tubule extensions, and its existence requires coordination of microtubule length at the nanometer scale. We show that three conserved proteins, two of which are mutated in the ciliopathy Joubert syndrome, determine the geometry of the distal segment, by controlling the positions of specific microtubule ends. FAP256/CEP104 promotes A-tubule elongation. CHE-12/Crescerin and ARMC9 act as positive and negative regulators of B-tubule length, respectively. We show that defects in the distal segment dimensions are associated with motile and sensory deficiencies of cilia. Our observations suggest that abnormalities in distal segment organization cause a subset of Joubert syndrome cases.

Published
2018

11. Tetrahymena RIB72A and RIB72B are microtubule inner proteins in the ciliary doublet microtubules

Author

Stoddard, Daniel, Zhao, Ying, Bayless, Brian A, Gui, Long, Louka, Panagiota, Dave, Drashti, Suryawanshi, Swati, Tomasi, Raphaël F-X, Dupuis-Williams, Pascale, Baroud, Charles N, Gaertig, Jacek, Winey, Mark, and Nicastro, Daniela

Subjects
Biochemistry and Cell Biology, Biological Sciences, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Generic health relevance, Axoneme, Cilia, Fluorescence, Gene Knockout Techniques, Green Fluorescent Proteins, Microtubule Proteins, Microtubules, Models, Biological, Mutation, Phagocytosis, Protein Subunits, Protozoan Proteins, Tetrahymena, Video Recording, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology
Abstract

Doublet and triplet microtubules are essential and highly stable core structures of centrioles, basal bodies, cilia, and flagella. In contrast to dynamic cytoplasmic micro-tubules, their luminal surface is coated with regularly arranged microtubule inner proteins (MIPs). However, the protein composition and biological function(s) of MIPs remain poorly understood. Using genetic, biochemical, and imaging techniques, we identified Tetrahymena RIB72A and RIB72B proteins as ciliary MIPs. Fluorescence imaging of tagged RIB72A and RIB72B showed that both proteins colocalize to Tetrahymena cilia and basal bodies but assemble independently. Cryoelectron tomography of RIB72A and/or RIB72B knockout strains revealed major structural defects in the ciliary A-tubule involving MIP1, MIP4, and MIP6 structures. The defects of individual mutants were complementary in the double mutant. All mutants had reduced swimming speed and ciliary beat frequencies, and high-speed video imaging revealed abnormal highly curved cilia during power stroke. Our results show that RIB72A and RIB72B are crucial for the structural assembly of ciliary A-tubule MIPs and are important for proper ciliary motility.

Published
2018

15. Breaking anchored droplets in a microfluidic Hele-Shaw cell

Author

Amselem, Gabriel, Brun, P. T., Gallaire, François, and Baroud, Charles N.

Subjects
Physics - Fluid Dynamics
Abstract

We study microfluidic self digitization in Hele-Shaw cells using pancake droplets anchored to surface tension traps. We show that above a critical flow rate, large anchored droplets break up to form two daughter droplets, one of which remains in the anchor. Below the critical flow velocity for breakup the shape of the anchored drop is given by an elastica equation that depends on the capillary number of the outer fluid. As the velocity crosses the critical value, the equation stops admitting a solution that satisfies the boundary conditions; the drop breaks up in spite of the neck still having finite width. A similar breaking event also takes place between the holes of an array of anchors, which we use to produce a 2D array of stationary drops in situ., Comment: 5 pages, 4 figures, to appear in Phys. Rev. Applied

Published
2015

18. Quantitative analysis of the dripping and jetting regimes in co-flowing capillary jets

Author

Cordero, María Luisa, Gallaire, François, and Baroud, Charles N.

Subjects
Physics - Fluid Dynamics
Abstract

We study a liquid jet that breaks up into drops in an external co-flowing liquid inside a confining microfluidic geometry. The jet breakup can occur right after the nozzle in a phenomenon named dripping or through the generation of a liquid jet that breaks up a long distance from the nozzle, which is called jetting. Traditionally, these two regimes have been considered to reflect the existence of two kinds of spatiotemporal instabilities of a fluid jet, the dripping regime corresponding to an absolutely unstable jet and the jetting regime to a convectively unstable jet. Here, we present quantitative measurements of the dripping and jetting regimes, both in an unforced and a forced state, and compare these measurements with recent theoretical studies of spatiotemporal instability of a confined liquid jet in a co-flowing liquid. In the unforced state, the frequency of oscillation and breakup of the liquid jet is measured and compared to the theoretical predictions. The dominant frequency of the jet oscillations as a function of the inner flow rate agrees qualitatively with the theoretical predictions in the jetting regime but not in the dripping regime. In the forced state, achieved with periodic laser heating, the dripping regime is found to be insensitive to the perturbation and the frequency of drop formation remains unaltered. The jetting regime, on the contrary, amplifies the externally imposed frequency, which translates in the formation of drops at the frequency imposed by the external forcing. In conclusion, the dripping and jetting regimes are found to exhibit the main features of absolutely and convectively unstable flows respectively, but the frequency selection in the dripping regime is not ruled by the absolute frequency predicted by the stability analysis., Comment: 10 pages, 12 figures, to appear in Physics of Fluids

Published
2010
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19. Measuring single-cell susceptibility to antibiotics within monoclonal bacterial populations.

Author

Le Quellec, Lena, Aristov, Andrey, Gutiérrez Ramos, Salomé, Amselem, Gabriel, Bos, Julia, Baharoglu, Zeynep, Mazel, Didier, and Baroud, Charles N.

Abstract

The emergence of new resistant bacterial strains is a worldwide challenge. A resistant bacterial population can emerge from a single cell that acquires resistance or persistence. Hence, new ways of tackling the mechanism of antibiotic response, such as single cell studies are required. It is necessary to see what happens at the single cell level, in order to understand what happens at the population level. To date, linking the heterogeneity of single-cell susceptibility to the population-scale response to antibiotics remains challenging due to the trade-offs between the resolution and the field of view. Here we present a platform that measures the ability of individual E. coli cells to form small colonies at different ciprofloxacin concentrations, by using anchored microfluidic drops and an image and data analysis pipelines. The microfluidic results are benchmarked against classical microbiology measurements of antibiotic susceptibility, showing an agreement between the pooled microfluidic chip and replated bulk measurements. Further, the experimental likelihood of a single cell to form a colony is used to provide a probabilistic antibiotic susceptibility curve. In addition to the probabilistic viewpoint, the microfluidic format enables the characterization of morphological features over time for a large number of individual cells. This pipeline can be used to compare the response of different bacterial strains to antibiotics with different action mechanisms. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Tip streaming from drops flowing in a spiral microchannel

Author

Molesin, Simon and Baroud, Charles N.

Subjects
Physics - Fluid Dynamics
Abstract

This fluid dynamics video shows drops of water being transported by a mean flow of oil, in a microchannel shaped as a logarithmic spiral. The channel shape means that the drops are submitted to an increasing shear and elongation as they flow nearer to the center of the spiral. A critical point is reached at which a long singular tail is observed behind the drops, indicating that the drops are accelerating. This is called "Tip streaming"., Comment: Abstract accompanying movie to the Gallery of Fluid Motion: APS-DFD 2008

Published
2008

22. Reaction-diffusion dynamics: confrontation between theory and experiment in a microfluidic reactor

Author

Baroud, Charles N., Okkels, Fridolin, Menetrier, Laure, and Tabeling, Patrick

Subjects
Physics - Fluid Dynamics, Physics - Instrumentation and Detectors
Abstract

We confront, quantitatively, the theoretical description of the reaction-diffusion of a second order reaction to experiment. The reaction at work is \ca/CaGreen, and the reactor is a T-shaped microchannel, 10 $\mu$m deep, 200 $\mu$m wide, and 2 cm long. The experimental measurements are compared with the two-dimensional numerical simulation of the reaction-diffusion equations. We find good agreement between theory and experiment. From this study, one may propose a method of measurement of various quantities, such as the kinetic rate of the reaction, in conditions yet inaccessible to conventional methods.

Published
2002
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23. Anomalous self-similarity in two-dimensional turbulence

Author

Baroud, Charles N., Plapp, Brendan B., She, Zhen-Su, and Swinney, Harry L.

Subjects
Physics - Fluid Dynamics
Abstract

Our velocity measurements on a quasi-two-dimensional turbulent flow in a rapidly rotating annulus yield an inverse cascade with E(k)~k^{-2} rather than the expected E(k)~k^{-5/3}. The probability distribution functions for longitudinal velocity differences, \delta_v(r)=v(x+r)-v(x), are self-similar (scale independent) but strongly non-Gaussian, which suggests that the coherent vortices play a significant role. The structure functions, <[\delta_v(r)]^p>~r^{\zeta_p}, exhibit anomalous scaling: \zeta_p=p/2 rather than \zeta_p=p/3 as in the 1941 Kolmogorov theory., Comment: 11 pages, 5 figures

Published
2001

25. Apical size and deltaA expression predict adult neural stem cell decisions along lineage progression

Author

Mancini, Laure, primary, Guirao, Boris, additional, Ortica, Sara, additional, Labusch, Miriam, additional, Cheysson, Felix, additional, Bonnet, Valentin, additional, Phan, Minh Son, additional, Herbert, Sébastien, additional, Mahou, Pierre, additional, Menant, Emilie, additional, Bedu, Sébastien, additional, Tinevez, Jean-Yves, additional, Baroud, Charles, additional, Beaurepaire, Emmanuel, additional, Bellaiche, Yohanns, additional, Bally-Cuif, Laure, additional, and Dray, Nicolas, additional

Published
2023
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27. Transient suppression of SUMOylation in embryonic stem cells generates embryo-like structures

Author

Cossec, Jack Christophe, Traboulsi, Tatiana, Sart, Sébastien, Loe-Mie, Yann, Guthmann, Manuel, Hendriks, Ivo A., Theurillat, Ilan, Nielsen, Michael L., Torres-Padilla, Maria Elena, Baroud, Charles N., Dejean, Anne, Cossec, Jack Christophe, Traboulsi, Tatiana, Sart, Sébastien, Loe-Mie, Yann, Guthmann, Manuel, Hendriks, Ivo A., Theurillat, Ilan, Nielsen, Michael L., Torres-Padilla, Maria Elena, Baroud, Charles N., and Dejean, Anne

Abstract

Recent advances in synthetic embryology have opened new avenues for understanding the complex events controlling mammalian peri-implantation development. Here, we show that mouse embryonic stem cells (ESCs) solely exposed to chemical inhibition of SUMOylation generate embryo-like structures comprising anterior neural and trunk-associated regions. HypoSUMOylation-instructed ESCs give rise to spheroids that self-organize into gastrulating structures containing cell types spatially and functionally related to embryonic and extraembryonic compartments. Alternatively, spheroids cultured in a droplet microfluidic device form elongated structures that undergo axial organization reminiscent of natural embryo morphogenesis. Single-cell transcriptomics reveals various cellular lineages, including properly positioned anterior neuronal cell types and paraxial mesoderm segmented into somite-like structures. Transient SUMOylation suppression gradually increases DNA methylation genome wide and repressive mark deposition at Nanog. Interestingly, cell-to-cell variations in SUMOylation levels occur during early embryogenesis. Our approach provides a proof of principle for potentially powerful strategies to explore early embryogenesis by targeting chromatin roadblocks of cell fate change.

Published
2023

35. Multiscale cytometry and regulation of 3D cell cultures on a chip

Author

Sart, Sébastien, Tomasi, Raphaël F.-X., Amselem, Gabriel, and Baroud, Charles N.

Subjects
Science, Microfluidics, Cell Culture Techniques, Endothelial Cells, Flow Cytometry, Article, Coculture Techniques, Rats, Cell Line, Tumor, Spheroids, Cellular, embryonic structures, Animals, Humans, Cattle, lcsh:Q, lcsh:Science, Aorta
Abstract

Three-dimensional cell culture is emerging as a more relevant alternative to the traditional two-dimensional format. Yet the ability to perform cytometry at the single cell level on intact three-dimensional spheroids or together with temporal regulation of the cell microenvironment remains limited. Here we describe a microfluidic platform to perform high-density three-dimensional culture, controlled stimulation, and observation in a single chip. The method extends the capabilities of droplet microfluidics for performing long-term culture of adherent cells. Using arrays of 500 spheroids per chip, in situ immunocytochemistry and image analysis provide multiscale cytometry that we demonstrate at the population scale, on 104 single spheroids, and over 105 single cells, correlating functionality with cellular location within the spheroids. Also, an individual spheroid can be extracted for further analysis or culturing. This will enable a shift towards quantitative studies on three-dimensional cultures, under dynamic conditions, with implications for stem cells, organs-on-chips, or cancer research., 3D cell culture is more relevant than the two-dimensional format, but methods for parallel analysis and temporal regulation of the microenvironment are limited. Here the authors develop a droplet microfluidics system to perform long-term culture of 3D spheroids, enabling multiscale cytometry of individual cells within the spheroid.

Published
2017

37. Supplementary Information from Growing from a few cells: combined effects of initial stochasticity and cell-to-cell variability

Author

A. Barizien, M. S. Suryateja Jammalamadaka, G. Amselem, and Baroud, Charles N.

Subjects
ComputingMethodologies_SIMULATIONANDMODELING, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, ComputingMilieux_COMPUTERSANDEDUCATION, ComputerApplications_COMPUTERSINOTHERSYSTEMS
Abstract

Supplementary figures and computations

Published
2019
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39. TetrahymenaRIB72A and RIB72B are microtubule inner proteins in the ciliary doublet microtubules

Author

Stoddard, Daniel, primary, Zhao, Ying, additional, Bayless, Brian A., additional, Gui, Long, additional, Louka, Panagiota, additional, Dave, Drashti, additional, Suryawanshi, Swati, additional, Tomasi, Raphaël F.-X., additional, Dupuis-Williams, Pascale, additional, Baroud, Charles N., additional, Gaertig, Jacek, additional, Winey, Mark, additional, and Nicastro, Daniela, additional

Published
2018
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44. Thermocapillary manipulation of microfluidic droplets: Theory and applications

Author

Gallaire, François, Baroud, Charles, Delville, Jean-Pierre, Laboratoire Jean Alexandre Dieudonné (JAD), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'hydrodynamique (LadHyX), École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Centre de physique moléculaire optique et hertzienne (CPMOH), and Centre National de la Recherche Scientifique (CNRS)-Université Sciences et Technologies - Bordeaux 1

Subjects
Physics::Fluid Dynamics, [PHYS.PHYS.PHYS-FLU-DYN]Physics [physics]/Physics [physics]/Fluid Dynamics [physics.flu-dyn]
Abstract

International audience; It was recently demonstrated by our group that a focused laser beam could be used to produce a net force on a moving microfluidic drop. The aim of the paper is to establish a scaling law for this net force by a examining the closely related but simpler situation of a very thin stationary circular drop of fixed shape submitted to a thermocapillary (Marangoni) stress. This leads us to recall the depth-averaged model for a microfluidic pancake-like undeformable drop submitted to a thermocapillary forcing. Our numerical method to solve the associated equations is then introduced and validated. In the case of a localized heating and for an ‘inverse' Marangoni effect (i.e. the surface tension increases with temperature) mimicking the experimental situation of a focused laser beam impinging on a surfactant laden water-oil interface, the flow field is computed and compared to experimental observations. The viscous shear stresses (normal and tangential) and the pressure force are then computed on the interface, yielding a simple expression for the total force acting on the droplet. Further numerical investigations are conducted and enable us to propose a scaling law for the net force combining all pertinent parameters.

Published
2008

45. Transport de gouttes de liquide mouillant dans des microcanaux en T

Author

Ody, Cédric, BAROUD, Charles, De Langre, Emmanuel, Association Française de Mécanique, and Service irevues, irevues

Subjects
pont liquide, mouillage, [PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics], jonction en T
Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; L'observation d'une goutte de liquide mouillant transportée à pression constante dans un microcanal en T permet de mettre en évidence trois comportements à la jonction: en dessous d'une pression seuil, la goutte reste bloquée à l'entrée de la bifurcation; au dessus, la goutte éclate ou se divise en deux gouttes filles dépendamment de sa longueur initiale et la pression de forçage. Nous prédisons les différentes transitions au moyen d'arguments géométriques et dynamiques.

Published
2007

46. Contrôle tout-optique du cycle de la vie d'une gouttelette en microcanal

Author

Robert de Saint Vincent, Matthieu, Gallaire, François, Wunenburger, Régis, Baroud, Charles, Delville, Jean-Pierre, Association Française de Mécanique, and Service irevues, irevues

Subjects
swirling jet, buoyancy, [PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics], vortex breakdown
Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; La formation et le transport d'une gouttelette dans un microcanal sont généralement imposés par la géométrie figée de ce microcanal. Pour surmonter cette contrainte, nous présentons une nouvelle approche basée sur la génération par laser de contraintes thermocapillaires localisées. Nous parvenons ainsi à contrôler sans contact ni microfabrication dédiée le débit et la taille des gouttelettes émises (vanne et calibreur), à trier ces gouttes (aiguillage), à les forcer optiquement à coalescer (mélangeur) ou au contraire à forcer la rupture en deux gouttes filles de taille contrôlée (diviseur). Utilisés en combinaison, ces nouveaux microcomposants hydrauliques élémentaires ouvrent la voie vers une approche tout-optique du laboratoire sur puce.

Published
2007

47. Origami Capillaire

Author

Bico, José, Py, Charlotte, Reverdy, Paul, Doppler, Lionel, Roman, Benoît, Baroud, Charles, Association Française de Mécanique, and Service irevues, irevues

Subjects
capillarité, élasticité, froissement, [PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics]
Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; Le pelage d'un chien qui sort de l'eau s'agrège en touffes : ceci est un exemple commun de l'effet des forces capillaires sur des structures élastiques. D'un point de vue pratique, la déformation de structures flexibles par les forces de tension de surface peut conduire à de graves dommages sur des microsystèmes mécaniques (à petite échelle, les forces capillaires deviennent prépondérantes). Cependant ce collage permet également l'auto-association de microstructures selon des motifs bien définis. Au delà de la flexion de tiges, que se passe-t-il si on pose une goutte d'eau sur une feuille très flexible ? La feuille peut-elle enrober spontanément la goutte ? Nous déterminerons quel est le critère d'enrobage et décrirons les differentes formes obtenues. En particulier, nous montrerons comment un tel mécanisme d'origami capillaire peut s'avérer pertinent pour l'élaboration de micro-structures tridimensionnelles à partir de patrons bidimensionnels.

Published
2007

48. Study of microbubbles mechanical behavior: application to the design of an actuated table for micromanipulation in liquid media

Author

Chaillet, Nicolas, Lambert, Pierre, Degrez, Gérard, Gauthier, Michaël, Delchambre, Alain, Baroud, Charles, Filippi, Enrico, Colinet, Pierre, Lenders, Cyrille, Chaillet, Nicolas, Lambert, Pierre, Degrez, Gérard, Gauthier, Michaël, Delchambre, Alain, Baroud, Charles, Filippi, Enrico, Colinet, Pierre, and Lenders, Cyrille

Abstract

The scope of this thesis is micromanipulation in liquid media. This scientific field aims at understanding the relevant phenomena existing during the manipulation in a liquid of microcomponents having a size between $1,micrometer$ and a few millimeters. This work focuses on the study of surface tension forces in immersed media, because they have favorable scaling effect. The main idea is to use gas bubbles as actuation mean in a liquid, and requires to study the mechanical properties of these bubbles. The originality of the approach is the combination of two effects: surface tension and gas compressibility. The first step was the study of an efficient mean to generate a single bubble of predefined size. After a detailed review, it appeared that volume controlled bubble generation was a promising method. We have then developed a model to predict the size of a bubble, and emphasized the possible existence of a growing instability. An analytic dimensionless study allowed to define a criterion to predict the existence of this instability.The second step aimed at the mechanical characterization in quasi static equilibrium of a gas bubble caught between two solids. The purpose is to predict the force generated by the bubble, together with its stiffness. The model implemented allowed to infer interesting properties, notably a high compliance whose value is controllable by fluidic parameters. This compliance property being very important during micromanipulation, a demonstrator making use of gas bubbles has been designed and manufactured. It consists in a compliant microtable actuated by three bubbles. This work opens the way to new actuation or sensing means, using the transduction between fluidic and mechanic energy operated by a capillary bridge./Cette thèse a pour contexte la micromanipulation en milieu liquide. Cette thématique scientifique vise à comprendre les phénomènes qui interviennent lors de la manipulation dans un liquide de microcomposants, d, Doctorat en Sciences de l'ingénieur, info:eu-repo/semantics/nonPublished

Published
2010

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