Laboratoire de Physique Théorique de la Matière Condensée

Pascal Viot

 

 


 

 

 

 

 

 

[1] Pair correlations and internal energy of the two-dimensional Coulomb gas,
  J.P. Hansen and P. Viot , Phys. Lett. A 95, 155 (1983).
[2] Two-body correlations and pair formation in the two-dimensional Coulomb gas,
  J.P. Hansen and P. Viot , J. Stat. Phys. 38, 823 (1985).
[3] Modified Born-Green-Yvon equations for the two dimensional Coulomb gas,
  P. Viot, Physica 131, 197 (1985).,
[4] Isotropic Raman study of ultrarapid proton-transfer reactions in aqueous mixtures,
  S. Bratos, G. Tarjus and P. Viot, J. Chem. Phys. 85, 803 (1986).
[5] Raman Investigation of rapid chemical reactions in liquids,
  P. Viot, G. Tarjus and S. Bratos , J. Mol. Liq. 36, 185 (1987).
[6] Isotropic Raman Study of pre-reactive, reactive and post-reactive processes in liquids,
  S. Bratos and P. Viot, in ''Reactive and flexible molecules in liquids'', p. 37-4 Nauplie Greece, Th. Dorfmüller (ed.), Kluver Academic Publisher (NATO ASI 1989).
[7] A Fokker Planck Study of Raman band shapes of chemically reactive liquids: comparison of phenomenological models,
  P. Viot, S. Bratos and G. Tarjus , J. Mol. Liq. 43, 93 (1989).
[8] Raman spectroscopy of fast pre-reactive, reactive and post-reactive molecular motions in liquids,,
  P. Viot, G. Tarjus, D. Borgis and S. Bratos, J. Chem. Phys. 90, 7022 (1989).
[9] Properties of H-bonding in the infrared spectral range
  S. Bratos, H. Ratatzak and P. Viot in '' Hydrogen-bonded liquids'', (J.C. Dore and J. Teixeira (eds.), Kluver Academic Publisher, 1991), p.221-235.
[10] Random sequential addition of unoriented squares: breakdown of Swendsen's conjecture,
  P. Viot and G. Tarjus, Europhys. Lett. 13, 295 (1990).
[11] New analytical and numerical results on virial coefficients for 2-D convex bodies,
  G. Tarjus, P. Viot, S. Ricci and J. Talbot, Mol. Phys. 73, 773 (1991).
[12] Asymptotic results for the Random Sequential Addition of Unoriented Objects, 
  G. Tarjus and P. Viot, Phys. Rev. Lett. 67, 1875 (1991). 
[13] Generalized car parking problem as a model for particle deposition with entropy activated rate process,  
  G. Tarjus and P. Viot, Phys. Rev. Lett. 68, 2354 (1992).
[14] Random sequential adsorption of anisotropic objects: I-jamming limit and asymptotic behavior,
  P. Viot, G. Tarjus, S. Ricci, and J.Talbot, J. Chem. Phys. 97 5212 (1992).
[15] Random sequential adsorption of anisotropic objects:II-low coverage kinetics, 
  S. Ricci, J. Talbot, G. Tarjus, and P. Viot, J. Chem. Phys. 97, 5219 (1992).
[16] Saturate coverage of strongly anisotropic objects in RSA, 
  P. Viot, G. Tarjus, S. Ricci, and J. Talbot, Physica A 191, 248 (1992).
[17] Computation of the free area in a 2-D configuration of anisotropic particles, 
  S.M. Ricci, J. Talbot, and P. Viot, Mol. Simul. 13, 1 (1994).
[18] Exact solution of a Generalized Ballistic Deposition Model, 
  P. Viot, G. Tarjus, and J. Talbot, Phys. Rev. E 48, 480 (1993).
[19] First-Layer Formation in Ballistic Deposition of Spherical Particles: Kinetics and Structure,.
  H.S. Choi, J. Talbot, G. Tarjus and P. Viot, J. Chem. Phys. 97, 4256 (1993).
[20] Restructuring effects in irreversible depositions of spheres on a plane,  .
  G. Tarjus, P. Viot, H.S. Choi, and J. Talbot, Phys. Rev. E 49, 3239 (1994).
[21] Exactly solvable models for irreversible adsorption with particle spreading,
  D. Boyer, G. Tarjus, J. Talbot, P. Van Tassel, and P. Viot, Phys. Rev. E 49, 5525 (1994).
[22] Pair correlation function in random sequential adsorption processes, 
  B. Bonnier, D. Boyer and P. Viot, J. Phys. A:Math. Gen. 27, 3671 (1994).
[23] A structural comparison of Random sequential adsorption and equilibrium surface phases of spherocylinders, 
  S.M. Ricci, J. Talbot, G. Tarjus, and P. Viot, J. Chem. Phys. 101, 9164 (1994).
[24] Irreversible adsorption of macromolecules at a liquid-solid interface: Theoretical studies of the effects of conformational change,
  Paul R. Van Tassel, Pascal Viot, Gilles Tarjus, and Julian Talbot, J. Chem. Phys. 101, 7064 (1994).
[25] Shattering transition in a multivariable fragmentation model, 
  D. Boyer, G. Tarjus, and P. Viot, Phys. Rev. E 51, 1043 (1995).
[26] Percolation and structural properties of particle deposits, 
  H.S. Choi, J. Talbot, G. Tarjus and P. Viot, Phys. Rev. E 51, 1353 (1995).
[27] Percus-Yevick-like integral equation for random sequential addition,
  D. Boyer, G. Tarjus, P. Viot, and J. Talbot, J. Chem. Phys. 95 1607 (1995).
[28] Kinetics of irreversible adsorption with a  particle conformational change: A density expansion approach,
  Paul R. Van Tassel, Julian Talbot, Gilles Tarjus, and Pascal Viot, Phys. Rev. E 53, 785 (1996).
[29] Pair correlation function for a generalized ballistic deposition model,
  D. Boyer, G. Tarjus and P. Viot, J. Phys. A 29, 2309 (1996).
[30] Exact solution and multifractalanalysis of multivariable fragmentation model, 
  D. Boyer, G. Tarjus and P. Viot, J. Phys. I 7, 13(1997).
[31] A kinetic model of partially reversible protein adsorption,
  Paul R. Van Tassel, Gilles Tarjus, and Pascal Viot, J. Chem. Phys. 106, 761 (1997).
[32] An exactly solvable continuum model of mutilayer irreversible adsorption,
  Paul R. Van Tassel, and Pascal Viot, Europhys. Lett. 40, 293 (1997).
[33] A distribution function analysis of the structure of depleted particle configurations,
  P.R. Van Tassel, J. Talbot, P. Viot, and G. Tarjus, Phys. Rev. E 56, R1299, (1997).
[34] Nearest-neighbor functions in a one-dimensional generalized ballistic deposition model,
  P. Viot, P.R. Van Tassel and J. Talbot, Phys. Rev. E 57, 1661 (1998).
[35] A Particle-Level Model of Irreversible Protein Adsorption with a Postadsorption Transition,
  P. R. Van Tassel, L. Guemour, J.J. Ramsden, G. Tarjus, P.Viot, and Julian Talbot,  J. of Colloid and Interface Science 207, 317 (1998).
[36] An exactly solvable kinetic model of multilayer macromolecular adsorption, 
  Paul R. Van Tassel, and Pascal Viot, p 1237, ed: F. Meunier, Fundamental of Adsorption 6(Elsevier, 1998)).
[37] Theoretical and experimental studies of protein adsorption kinetics, 
  Michelle Brusatori, Paul R. Van Tassel, Julian Talbot, Gilles Tarjus, and Pascal Viot, p485, ed: F. Meunier, Fundamental of Adsorption 6 (Elsevier, 1998).
[38] A generalized model of irreversible multilayer deposition, 
  S. Yang, P.Viot and P.R. Van Tassel, Phys. Rev. E 58, 3324 (1998).
[39] Microphase separation and modulated phases in a Coulomb frustrated Ising ferromagnet, 
  P. Viot and G. Tarjus, EuroPhys.Lett. 44, 423 (1998). 
[40] Sluggish Kinetics in the Parking Lot Model,
  J. Talbot, G. Tarjus, and P. Viot, J. Phys. A 32, 2997 (1999). 
[41] From Car Parking to Protein Adsorption: An Overview of Sequential Adsorption Processes,
  J. Talbot, G. Tarjus, P. R. Van Tassel, and P. Viot, Colloids and Surfaces A: Physicochemical and Engineering Aspects 165, 287 (2000).
[42] Enhanced Saturation Coverage in Adsorption-Desorption Processes,
  P. R. Van Tassel, P. Viot, G. Tarjus, J.J. Ramsden and J. Talbot, J. Chem. Phys. 112, 1483 (2000).
[43] The viscous slowing down of supercooled liquids as a temperature-controlled superarrhenius activated process: a description in terms of frustration-limited domains,  
  G. Tarjus, D. Kivelson, and P. Viot J. Phys : Cond. Matter. Special issue: Unifying concepts in Glass Physics 12, 6497 (2000).
[44] The adsorption-desorption model and its application to vibrated granular materials,
  J. Talbot, G. Tarjus, and P. Viot, Phys. Rev. E 61, 5429 (2000).
[45] A heterogeneous picture for alpha relaxation for fragile supercooled liquids,
  P. Viot,  G. Tarjus, and D. Kivelson, J. Chem. Phys 112 , 10368 (2000).
[46] A Phase diagram of an Ising model with long -range  frustrating interactions: a theoretical  analysis,
  M. Grousson, G. Tarjus and P. Viot. Phys. Rev. E  62, 7781 (2000).
[47] Aging and response properties in the parking lot model,
  J. Talbot, G. Tarjus and P. Viot.  Euro Phys. J. E. 5, 445 (2001).
[48]  Equilibrium and out-of-equilibrium (hysteretic) behavior of fluids in disordered porous materials: theoretical predictions,
  E. Kierlik, M. L. Rosinberg, G.Tarjus, and P. Viot. Phys. Chem. Chem. Phys. 3, 1201 (2001). 
[49]  Comment on ``Stripe Glasses: Self-Generated Randomness in a Uniformly Frustrated System'',
  M. Grousson, G. Tarjus and P. Viot. Phys. Rev. Lett. 86, 3455 (2001) 
[50] Slow dynamics, aging and history-dependent effects 
  P. Viot, J. Talbot, G. Tarjus. Fractals, 11 , 185 (2003).
[51]  A Monte Carlo study of the three-dimensional Coulomb frustrated Ising ferromagnet,
  M. Grousson, G. Tarjus and P. Viot.   Phys. Rev. E  64, 036109 (2001).
[52]  Kinetics of Heterogeneous Adsorption: Mean Field Theory and Simulations,
  W.J. Ceyrolles, P. Viot and J. Talbot.  Langmuir 18, 1112 (2002) 
[53]  ``Fragile'' glassforming behavior of a three-dimensional Ising ferromagnet with uniform frustration, 
  M. Grousson, G. Tarjus and P. Viot. J.Phys: Cond. Matter 14, 1617 (2002).
[54]  Wall-Enhanced Convection in Vibrofluidized Granular Systems,
  J. Talbot and P. Viot  Phys. Rev. Lett. 89, 064301 (2002).
[55]  Evidence for ``fragile'' glass-forming behavior in the relaxation of Coulomb frustrated three-dimensional systems.
  M. Grousson, G. Tarjus and P. Viot  Phys. Rev. E 65,   065103(R) (2002).
[56]  Locally preferred structure and frustration in glassforming behavior: a clue to polyamorphism.
  G. Tarjus C. Alba-Simionesco, M. Grousson, P. Viot and D. Kivelson J. Phys: Condens. Matter 15, S1077 (2003)
[57]  Torroidal convection rolls in a three-dimensional granular system,
  J. Talbot and P. Viot Phyica A. 317, 672 (2002).
[58]  Langevin dynamics of the Coulomb frustrated ferromagnet: a mode-coupling analysis,
  M. Grousson, V. Krakoviack, G. Tarjus and P. Viot Phys. Rev. E. 66, 026126 (2002).
[59] Optimum Monte Carlo Simulations: Some Exact Results.
  J. Talbot G. Tarjus and P. Viot J. Phys. A: Math. Gen. 36 , 9009 (2003).
[60] Causality constraints on fluctuations in cosmology: A study with exactly solvable one dimensional models, 
  A. Gabrielli, M. Joyce, B. Marcos and P. Viot Europhys. Lett.. 66 , 1, (2004).
[61] Statistical mechanical description of the parking lot model for vibrated granular materials.
  G. Tarjus and P. Viot   Phys. Rev. E. 69, 011307 (2004).
[62] Memory and Kovacs effects in the parking-lot model: an approximate statistical-mechanical treatment.
  G. Tarjus and P. Viot   in Unifying Concepts in Granular Media and Glasses M. Nicodemi, A. Coniglio, A. Fierro, and H. Herrmann ( Elsevier, Amsterdam, 2004), p. 35 .
[63] Thermalization of an anisotropic granular particle.
  P. Viot and J. Talbot Phys. Rev. E 69, 051106 (2004).
[64] Improved-spike-sorting by modeling firing statistics and burst-dependent spike amplitude attenuation: A Markov chain monte carlo approach
  C. Pouzat, M. Delescluse, P. Viot and J. Diebolt J Neurophysiol, 91: 2910 (2004).
[65] Boltzmann equation for a granular capped rectangle in a thermalized bath of hard disks
  H. Gomart, J. Talbot and P. Viot Phys. Rev. E 71, 051306 (2005).
[66] Heterogeneous ultrasonic shot peening : experiment and simulation
  M. Micoulaut, D. Retraint, P. Viot and M François , Proceeding to 9th international conference on Shot Peening (2005)
[67] Tackling out-of-equilibrium systems by computer simulation: models of irreversible and reversible adsorption
  P. Viot , Euro. J. Phys. 26, S39 (2005)
[68] The frustration-based approach of supercooled liquids and the glass transition: a review and critical assessment
  G. Tarjus, S. A. Kivelson, Z. Nussinov, P. Viot , J. Phys: Condens. Matter 17, R1143 (2005)
[69] Power law in the angular velocity distribution of a granular needle
  J. Piasecki and P. Viot , Europhys. Lett. 74, 1 (2006)
[70] Granular gases in mechanical engineering: on the origin of heterogeneous ultrasonic shot peening
  M. Micoulaut, S. Mechkov, D. Retraint, P. Viot and M. François , Granular Matter 9, 23, (2007)
[71] Exact solution of the Boltzmann equation for a granular tracer particle
  J. Piasecki, J. Talbot and P. Viot , Physica A 373, 313 (2007)
[72] Application of the Gillespie algorithm to a granular intruder particle
  J. Talbot and P. Viot , J. Phys. A: Math. Gen. 39 , 10947 (2006)
[73] Angular velocity distribution of a granular planar rotator in a thermalized bath
  J. Piasecki, J. Talbot and P. Viot , Phys. Rev. E. 75, 051307 (2007)
[74] Exactly solvable model of reversible adsorption on a disordered substrate
  J. Talbot, G. Tarjus and P. Viot , Phys. Rev. E. 76, 051106 (2007)
[75] Chirality and Z2 vortices in an Heisenberg spin model on the kagomé lattice
  J. Domenge, C. Lhuillier, L. Messio, L. Pierre. and P. Viot , Phys. Rev.B 77, 172413 (2008)
[76] Tuning the fragility of a glassforming liquid by curving space
  F. Sausset, G. Tarjus, and P. Viot , Phys. Rev. Lett., 101, 155701 (2008)
[77] Thermostatistics of a single particle on a granular dimer lattice: influence of defects
  K. Combs, J. S. Olafsen, A. Burdeau and P. Viot , Phys. Rev. E 78 042301 (2008)
[78] Equilibrium adsorption on a random site surface
  J. Talbot, G. Tarjus and P. Viot , J. Phys. Chem.B 112, 13051 (2008)
[79] Thermal destruction of chiral order in a two-dimensional model of coupled trihedra
  Laura Messio, Jean-Christophe Domenge, Claire Lhuillier, Laurent Pierre, Pascal Viot and Gregoire Misguich , Phys. Rev. B 78, 054435 (2008)
[80] Velocity-correlation distributions in granular systems
  Alexis Burdeau, Pascal Viot , Phys. Rev. E 78, 041305 (2008)
[81] Quasi-equilibrium properties of a vibrated granular bilayer system
  A. Burdeau and P. Viot , Phys. Rev. E 79, 061306 (2009)
 [82] Thermodynamics and structure of simple liquids in the hyperbolic plane
   François Sausset, Gilles Tarjus and Pascal Viot , J. Stat. Mech. P04022 (2009)
[83] Cantor set dynamics of a granular piston 
  Jaroslaw Piasecki,  Julian Talbot, Julian and Pascal Viot, J. Stat Mech  P05004 (2010)
[84] Analysis of a class of granular motors in the Brownian limit
  Julian Talbot, Alexis Burdeau and Pascal Viot, Phys. Rev .E 82 011135(2010)
[85] Statistical Mechanics of liquids and fluids in curved space
  Gilles Tarjus, François Sausset  and Pascal Viot ,  Adv. Chem. Phys. 148, 251 (2010)
[86] Kinetic analysis of a chiral granular motor
  Julian Talbot and Alexis Burdeau and Pascal Viot, J. Stat. Mech. P03009 (2011)
[87] Strong ratchet effects for heterogeneous granular particles in the Brownian limit
  Pascal Viot, Alexis Burdeau and Julian Talbot, Non equlibrium statistical Physics Today   Book Series: AIP Conference Proceedings   1332  235 (2011)
[88] Simulation and experimental approach for shot velocity evaluation in ultrasonic shot peening
  Badreddine, J , Rouhaud, E , Micoulaut, M ,  et al , Mechanics  & industry  12  223 (2011)
[89] Kinetics of a frictional granular motor
  J. Talbot, R. D. Wildman and P. Viot,   Phys. Rev. Lett,  107, 138001 (2011)
[90] Effect of dynamic and static friction on an asymmetric granular piston
  J. Talbot and P. Viot,   Phys. Rev. 85, 021310 (2012)
[91] Work fluctuation theorem for a granular motor
  J. Talbot and P. Viot,Eur. Phys. J. Special Topics , 216, 213 (2013)
[92] Non-Markovian Models of Blocking in Concurrent and Countercurrent Flows
  A. Gabrielli, J. Talbot and P. Viot Phys. Rev. Lett,  110, 170601 (2013)
[93] Stochastic model of single-file flow with reversible blockage
  Chloé Barré, Julian Talbot and Pascal Viot EPL, 104 60005 (2013)
[94] Scaling quasistationary states in long-range systems with dissipation
   Michael Joyce, Jules Morand, François Sicard and Pascal Viot, Phys. Rev. Lett. 112, 070602 (2014)
[95]
Dynamics of a monodisperse Lennard-Jones system on a sphere
   Julien-Piera Vest, Gilles Tarjus  and  Pascal Viot Mol. Phys.  112, 1300 (2014)
[96]

Irreversible blocking in single-file concurrent and countercurrent particulate flows
 

Chloé Barré, Julian Talbot and  Pascal Viot, J. Stat. Mech. P01027 (2015)
[97] Mode-coupling approach for the slow dynamics of a liquid on a spherical substrate
 

Julien-Piera Vest, Gilles Tarjus  and  Pascal Viot J. Chem. Phys. 143, 084505   (2015).
[98]

Generalized model of blockage in particulate flow limited by channel  carrying capacity
 

Chloé Barré, Julian Talbot,  Pascal Viot, Luca Angelani and Andrea Gabrielli, Phys. Rev E 92, 032141, (2015)
[99]

Attractor non-equilibrium stationary states in perturbed long-range interacting systems
  Michael Joyce, Jules Morand  and Pascal Viot,  Phys. Rev. E 93, 052129 (2016).  
[100] Glassy dynamics of dense particle assemblies on a spherical substrate
  Julien-Piera Vest, Gilles Tarjus & Pascal Viot, J. Chem. Phys.,  148, 164501, (2018)
[101] Two-temperature Brownian dynamics of a particle in a confining potential
  Vincent Mancois, Bruno Marcos, Pascal Viot,  & David Wilkowski, Phys. Rev. E,  97, 052121, (2018),
[102] Optimizing the Throughput of Particulate Streams Subject to Blocking
  Gregory  Page , Jacques Resing , Pascal Viot & Julian Talbot J. Stat Mech 063213 (2018)
 
[103] Stochastic models of multi-channel particulate transport with blockage
  Chloé Barré, Gregory Page, Julian Talbot and Pascal Viot J. Phys. Cond. Mat  30 304004 (2018)
[104] Recurrence dynamics of particulate transport with reversible blockage: From a single channel to a bundle of coupled channels
  Chloé Barré, Gregory Page, Julian Talbot and Pascal Viot Phys. Rev. E 99 042119 (2019)
[105] Synchronized states of one dimensional long-range systems induced by inelastic collisions
  Michael Joyce, Jules Morand and Pascal Viot J. Phys. A: Math. Gen. 52 494001 (2019)
[106] Anisotropic long-range interaction investigated with cold atoms
  Vincent Mancois,Julien Barré, Chang Chi Kwong, Alain Olivetti, Pascal Viot, and David Wilkowski Phys. Rev. A. 52 003300 (2020)
[107] Emergent Potts order in the kagome J1 − J3 Heisenberg model
  Vincent Grison, Pascal Viot, Bernard Bernu, and Laura Messio, Phys. Rev. B 102 214424  (2020)
[108]

Weak clogging in constricted channel flow
 

Pascal Viot, Gregory Page, Chloé Barré, and Julian Talbot Phys. Rev. E. 105 014604 (2022)
[109] Fractional Brownian Gyrator
  Alessio Squarcini, Alexandre Solon, Pascal Viot, and Gleb Oshanin    J. Phys. A, 55,  485001 (2022)
[110]

Cooperative dynamics in two-component out-of-equilibrium systems: Molecular "spinning tops"
 

Victor S Dotsenko, Pascal Viot, Alberto Imparato, Gleb Oshanin   J. Stat. Mech  123211 (2022).
[111] Models for the computational design of microfarms
 

David Colliaux  , Pietro Gravino, Peter Hanappe, Julian Talbot  and Pascal Viot

in Complex Computational Ecosystems ({Springer Nature Switzerland}) ,  page 121  (2023)
[112] Out-of-equilibrium dynamics of two interacting optically-trapped particles
  Victor S. Dotsenko, Alberto Imparato, Pascal Viot and Gleb Oshanin  SciPost Phys. Core 6, 056 (2023)
[113] Destructive effect of fluctuations on the performance of a Brownian gyrator
  Pascal Viot, Aykut Argun, Giovanni Volpe, Alberto Imparato, Lamberto Rondoni and Gleb Oshanin  arXiv:2307.05248
[114] Irregular Gyration of a Two-Dimensional Random-Acceleration Process in a Confining Potential
  Victor Dotsenko, Gleb Oshani, Leonid Pastur, Pascal Viot J.Stat.l Phys. 191, 27, (2024)

 

 

 

 

 

 Ce cours comprend deux parties:

  • Le première document concerne  l'utilisation avancée du Python et l'apprentisssage du C++, à travers deux interfaces que sont Spyder et Codeblocks. Une première version de la programmation sous la forme structurée, puis dans une version version la programmation orientée objet est considérée pour les deux langages. La nouvelle version comprend un nouveau chapitre sur la parallélisation à travers le module joblib en Python et Openmp en C++. De plus la parallélisation avec MPI est présentée de manière introductive pour les deux langages.
  • Le  second document  concerne les méthodes numériques qui vont de l'intégration à l'analyse spectrale en passant par la résolution d'équations différentielles et l'analyse de Fourier. Ces méthodes sont illustrés par de nombreux scripts Python

 

 

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Marié, six enfants   Né le 19 Juillet 1958 à Nanterre (92),

 

 

Formation

1975 Baccalauréat Série C (Académie de Paris)
1978 E.N.S. Cachan
1979 Licence de Physique (Orsay)
1980 Maîtrise de Physique et Licence de Mathématiques (Orsay)
1981 Agrégation de Physique
1982 DEA : Physique Atomique et Moléculaire (Université Paris VI)
1984 Thèse de troisième cycle : "Mécanique Statistique du Gaz Coulombien bidimensionnel", Université Paris VI, (Directeur : J.P. HANSEN)
1989 Thèse d'Université : "étude par spectroscopie Raman des cinétiques chimiques rapides en phase liquide", Université Paris VI, (Directeur S. BRATOS)
1993 Habilitation à diriger des recherches :"Adsorption irréversible de macromolécules aux interfaces liquide solide", Université Pierre & Marie Curie.

Expérience professionnelle

1978-1982 Elève E.N.S. de Cachan
1982-1984 Boursier D.G.R.S.T.
1984-1989 Chargé de Recherche 2ème classe C.N.R.S.
1989-2002 Chargé de Recherche 1ère classe C.N.R.S.
2002- 2009 Directeur de Recherche 2ème classe C.N.R.S.
2009-2012

Professeur 1ère Classe UPMC
2012-2015 Professeur CE1 UPMC
2015- Professeur CE2 UPMC