Guillaume Michel Associate professor at Sorbonne Université

Digital identifiers

Articles

  • Baroclinic transition in acoustic streaming: beyond Rayleigh's paradigm [DOI] [HAL] [highlight in Focus on Fluids] pdf
    R. Mushthaq, G. Michel and G. P. Chini, Journal of Fluid Mechanics 1017, A32 (2025)

  • Rayleigh-Bénard Convection with Phase Change Close to the Critical Point [DOI] [arXiv] [HAL] pdf movie
    V. Mouet, G. Michel, F. Pétrélis and S. Fauve, Physical Review Letters 134, 104001 (2025)

  • Coupled dynamics of a wave and moving boundary [DOI] [HAL] pdf movie
    G. Michel, Comptes Rendus. Physique 26, 259-270 (2025)

  • Aspect-ratio-dependent heat transport by baroclinic acoustic streaming [DOI] [arXiv] [HAL] pdf
    J. A. Massih, R. Mushthaq, G. Michel and G. P. Chini, Journal of Fluid Mechanics 997, A7 (2024)

  • Fluctuation Relations at Large Scales in Three-Dimensional Hydrodynamic Turbulence [DOI] [arXiv] [HAL]
    A. Alexakis, S. Chibbaro and G. Michel, EPL 144, 43001 (2023)

  • Nonlinear dispersion relation in integrable turbulence [DOI] [arXiv] pdf
    A. Tikan et al., Scientific Reports 12, 10386 (2022)

  • Statistics of rogue waves in isotropic wave fields [DOI] [arXiv] [HAL] pdf
    G. Michel, F. Bonnefoy, G. Ducrozet and E. Falcon, Journal of Fluid Mechanics 943, A26 (2022)

  • Prediction and manipulation of hydrodynamic rogue waves via nonlinear spectral engineering [DOI] [arXiv] [HAL] pdf
    A. Tikan et al., Physical Review Fluids 7, 054401 (2022)

  • Exploiting self-organized criticality in strongly stratified turbulence [DOI] [arXiv]
    G. Chini et al., Journal of Fluid Mechanics 933, A22 (2022)

  • Cooling by Baroclinic Acoustic Streaming [DOI] [HAL] pdf
    G. Michel and C. Gissinger, Physical Review Applied 16, L051003 (2021)

  • Nonlinear Spectral Synthesis of Soliton Gas in Deep-Water Surface Gravity Waves [DOI] [arXiv] [HAL] [french press review] pdf
    P. Suret et al., Physical Review Letters 125, 264101 (2020)

  • Saturation of the inverse cascade in surface gravity wave turbulence [DOI] [arXiv] [HAL] pdf
    E. Falcon et al., Physical Review Letters 125, 134501 (2020)

  • Emergence of Peregrine solitons in integrable turbulence of deep water gravity waves [DOI] [HAL] [french press review] pdf
    G. Michel et al., Physical Review Fluids 5, 082801 (2020)

  • From modulational instability to focusing dam breaks in water waves [DOI] [arXiv] [HAL] pdf
    F. Bonnefoy et al., Physical Review Fluids 5, 034802 (2020)

  • Capillary wave turbulence experiments in microgravity [DOI] [arXiv] [HAL] [french press review]
    M. Berhanu et al., EPL 128, 34001 (2019)

  • Multiple scales analysis of slow–fast quasi-linear systems [DOI] [arXiv]
    G. Michel and G. Chini, Proceedings of the Royal Society A 475, 20180630 (2019)

  • Three-wave interactions among surface gravity waves in a cylindrical container [DOI] [arXiv] pdf
    G. Michel, Physical Review Fluids 4, 012801 (2019)

  • Strong wave – mean-flow coupling in baroclinic acoustic streaming [DOI] [arXiv] [highlight in Focus on Fluids]
    G. Michel and G. Chini, Journal of Fluid Mechanics 858, 536 (2018)

  • Coexistence of solitons and extreme events in deep water surface waves [DOI] [arXiv] pdf
    A. Cazaubiel et al., Physical Review Fluids 3, 114802 (2018)

  • Self-similar gravity wave spectra resulting from the modulation of bound waves [DOI] [HAL] pdf
    G. Michel et al., Physical Review Fluids 3, 054801 (2018)

  • Experimental observation of four-wave resonant interactions in a wave basin [DOI]
    F. Bonnefoy et al., La Houille Blanche (Revue internationale de l'eau) 5, 56 (2017)

  • Observation of thermal equilibrium in capillary wave turbulence [DOI] [arXiv] pdf
    G. Michel, F. Pétrélis and S. Fauve, Physical Review Letters 118, 144502 (2017)

  • Instabilities on a turbulent background [DOI]
    S. Fauve, J. Hérault, G. Michel and F. Pétrélis, Journal of Statistical Mechanics, 064001 (2017)

  • Observation of nonlinear sloshing induced by wetting dynamics [DOI] [HAL] pdf
    G. Michel, F. Pétrélis and S. Fauve, Physical Review Fluids 2, 022801 (2017)

  • The generalized Doppler effect for surface waves [DOI] [HAL]
    G. Michel, EPL 116, 44002 (2016)

  • Observation of resonant interactions among surface gravity waves [DOI] [arXiv] [highlight in Focus on Fluids]
    F. Bonnefoy et al., Journal of Fluid Mechanics 805, R3 (2016)

  • Bifurcations of a large-scale circulation in a quasi-bidimensional turbulent flow [DOI] [arXiv]
    G. Michel, J. Herault, F. Pétrélis and S. Fauve, EPL 115, 64004 (2016)

  • Acoustic Measurement of Surface Wave Damping by a Meniscus [DOI] [HAL] pdf
    G. Michel, F. Pétrélis and S. Fauve, Physical Review Letters 116, 174301 (2016)

  • Local fluctuation theorem for large systems [DOI] [arXiv] pdf
    G. Michel and D. J. Searles, Physical Review Letters 110, 260602 (2013)

  • Contribution of the stochastic forces to the fluctuation theorem [DOI] pdf
    G. Michel and D. J. Searles, Physical Review E 85, 0421202 (2012)

PhD Thesis

  • Parois et ondes de surface : dissipation, effet Doppler et interactions non linéaires (2017) pdf

Material for a general audience

  • Les vagues scélérates [Link]
    G. Michel, conférence "Une question, un chercheur" (2022)

  • Comment naissent les vagues scélérates ? [Link]
    G. Michel, The Conversation (2020)

  • La physique d'un verre d'eau [Link]
    G. Michel, Le Rayon – Revue de la SFP (2018)

Book

  • Physique PCSI
    G. Michel, A. Raoux, P. Tondelier and E. Van Brackel, De Boeck Université (2017)