Publications

Key and recent publications

  • Eeltink, D., H. Branger, C., Luneau, et al., 2022, Nonlinear wave evolution with data-driven breaking, Nat Commun 13, 2343, https://doi.org/10.1038/s41467-022-30025-z
  • Villefer A., M. Benoit, D. Violeau, C. Luneau, and H. Branger, 2021, Influence of following, regular and irregular long waves on wind-wave growth with fetch : an experimental study, Journal of Physical Oceanography, 51(11), 3435–3448. DOI : https://doi.org/10.1175/JPO-D-21-0050.1
  • Bruch, W., Piazzola, J., Branger, H., M.J van Eijk, A., Luneau, C., Bourras, D., and G. Tedeschi, 2021, Sea-Spray-Generation Dependence on Wind and Wave Combinations : A Laboratory Study. Boundary-Layer Meteorol., 180, 477–505, https://doi.org/10.1007/s10546-021-00636-y
  • Kristoffersen, J. C., H. Bredmose, C. T. Georgakis, H. Branger, and C. Luneau, 2021, Experimental study of the effect of wind above irregular waves on the wave-induced load statistics, Coastal Engineering, 103940.
  • Eeltink, D., Armaroli, A., Luneau, C. et al., 2020, Separatrix crossing and symmetry breaking in NLSE-like systems due to forcing and damping, Nonlinear Dyn 102, 2385–2398.
  • Chemin, R., C. Luneau, and G. Caulliez, 2020, Exploring wind-driven subsurface water flow with an acoustic doppler velocity profiler, Journal of Atmospheric and oceanic technology, JTECH, Jul, https://doi.org/10.1175/JTECH-D-19-0052.1
  • Branger H., Paillard B., Roy S., Luneau C., Perrot E. and Bourras D., 2018, Experimental and numerical study on a model offshore vertical axis wind turbine with pitching blades, Proceedings of the 7th Conference on Bluff Body Wakes and Vortex-Induced Vibrations, BBVIV-7, 4pp, Carry Le Rouet, France, 3-6 July.
  • Branger H., Paillard B., Luneau C., Bourras D. and Lasserre J.J., 2018, “Study of a variable pitch control system for an offshore vertical axis wind turbine”, Proceedings 16 èmes journées de l’hydrodynamique, 8pp, Marseille.
  • Eeltink D., A. Lemoine, H. Branger, O. Kimmoun, C. Kharif, J. D. Carter, A. Chabchoub, M. Brunetti, and J. Kasparian, 2017, Spectral up- and downshifting of Akhmediev breathers under wind forcing, Physics of Fluids 29, 107103.
  • Roy, S., Branger H., Luneau C. and Paillard B., 2017, “An analytical approach to design an offshore vertical axis wind turbine for AEROPITCH project”, ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2017), Trondheim, Norway June 25-30, Proceedings OMAE2017-61512, 8pp, https://hal.archives-ouvertes.fr/hal-01629533
  • Calec N., P. Boyer, F. Anselmet, M. Amielh, H. Branger, A. Mailliat, 2017, Dry deposition velocities of submicron aerosols on water surfaces : laboratory experimental data and modelling approach. J. Aerosol Science, 105, 179-192.
  • Roy, S., Branger H., Luneau C., and Paillard B., 2016, “Design of blade profile for offshore vertical axis wind turbines using Double Multiple Stream Tube model with tip loss correction”, Proceedings of the Euromech Colloquium on Scientific and Technological Challenges in Offshore Vertical Axis Wind Turbines, p 69-70, Delft, The Netherlands, September 7-9, https://hal.archives-ouvertes.fr/hal-01629690
  • Boisot O., S. Pioch, C. Fatras, G. Caulliez, A. Bringer, P. Borderies, J.C. Lalaurie, and C.A. Guérin, 2015, Ka-band scattering from water surface at small incidence : a wind-wave tank study, J. Geophys. Res. Oceans, 120, 3261–3285.
  • Brunetti, M., 2015, Formation of rogue waves under forcing fields. Swiss Physical Society Communications, 47, no. 50, 26-28.
  • Kiefhaber, D., G. Caulliez, C. Zappa, J. Schaper, and B. Jahne, 2015, Water wave measurement from stereo images of specular reflections, Measurement Science and Technology, 26, 115401.
  • Zakharov V., S. Badulin, P. Hwang, and G. Caulliez, 2015, Universality of sea wave growth and its physical roots, J. Fluid Mechanics, 780, 503-535.
  • Caulliez G., 2013, Dissipation regimes for short wind waves, J. Geophysical Res., vol. 118, 2, 672-684, doi:10.1029/2012JC008402.
  • Chabchoub A., N. Hoffmann, H. Branger, C. Kharif, and N. Akhmediev, 2013, Experiments on wind-perturbed rogue wave hydrodynamics using the Peregrine breather model. Phys. Fluid, 25, 101704.
  • Grare L., W. L. Peirson, H. Branger, J. Walker, J.-P. Giovanangeli, et al., 2013, Growth and dissipation of wind forced, deep water waves. Journal of Fluid Mechanics, 722, pp.5-50. ⟨10.1017/jfm.2013.88⟩. ⟨hal-00850963⟩
  • Roupsard P., M. Amielh, D. Maro, A. Coppalle, H. Branger, O. Connan, P. Laguionie, D. Hebert, and M. Talbaut, 2013, Measurement in a wind tunnel of dry deposition velocities of sub-micron aerosol with associated turbulence onto rough and smooth urban surfaces. J. Aerosol Science, 55, 12-24.
  • Caulliez G., and C.A. Guérin, 2012, Higher-order statistical analysis of short wind wave fields, J. Geophysical Res., 117, C06002, doi:10.1029/2011JC007854. http://onlinelibrary.wiley.com/doi/10.1029/2004JC002342/full
  • Grare, L., J.-P. Giovanangeli, and H. Branger, 2009, Étude expérimentale de la couche limite dans l’air à proximité immédiate des vagues, Proceedings CFM, 1 (1), pp.CDrom. ⟨hal-00438314⟩
  • Giovanangeli, J. P., Christian Kharif, and T. Talipova, 2008, Modelling of Rogue wave shapes in shallow water, E. Pelinovsky and C. Kharif, Extreme Ocean Waves, Springer Verlag, pp.71-81. ⟨hal-00458600⟩
  • Kharif, C., J.-P. Giovanangeli, J. Touboul, L. Grare, E. Pelinovsky, 2008, Influence of wind on extreme wave events : Experimental and numerical approaches, Journal of Fluid Mechanics, 594, pp.209-247. ⟨10.1017/S0022112007009019⟩. ⟨hal-00159430v2⟩
  • Reul, N., H. Branger, and J.P. Giovanangeli, 2008, Air flow structure over short-gravity breaking water waves, Boundary-Layer Meteorol., 126(3), 477-505. https://link.springer.com/article/10.1007/s10546-007-9240-3
  • Makin V., H. Branger, W. Peirson, and J.P. Giovanangeli, 2007, Stress above wind-plus-paddle waves : Modeling of a laboratory experiment, J. Phys. Ocean., 37, 12, 2824-2837. http://journals.ametsoc.org/doi/abs/10.1175/2007JPO3550.1
  • Giovanangeli, J.-P., C. Kharif, and J. Touboul, 2006, On the role of the Jeffreys’ sheltering mechanism in the sustain of extreme water waves, Comptes Rendus Mécanique, 334 (8-9), pp.568-573. ⟨10.1016/j.crme.2006.07.002⟩. ⟨hal-00083787⟩
  • Plant, W. J., P. H. Dahl, J.-P. Giovanangeli, and H. Branger, 2004, Bound and free surface waves in a large wind-wave tank, Journal of Geophysical Research. Oceans, 109, C10002, ⟨10.1029/2004JC002342⟩. ⟨hal-00084283⟩
  • Giovanangeli, J.-P., 2001, Wind, stress and wave directions. I.S.F. Jones and Y. Toba. Wind Stress Over the Ocean, Cambridge University Press, pp.232. ⟨hal-00106726⟩
  • Caulliez, G., and F. Collard, 1999, Three-dimensional evolution of the wind waves from gravity-capillary to gravity range, Eur. J. Mech. B/Fluids, 18(3), 389-402. http://www.dtic.mil/dtic/tr/fulltext/u2/a398115.pdf#page=66
  • Giovanangeli, J.-P., N. Reul, M. H. Garat, H. Branger, 1999, Some aspects of wind-wave coupling at high winds, Sajjadi, Thomas and Hunt Eds, Wind over Wave coupling, Clarendon Press, Oxford University Press, pp.81-90. ⟨hal-00192505⟩
  • Reul N., H. Branger, L. Bliven, and J.P. Giovanangeli, 1999, The influence of oblique waves on the azimuthal response of a Ku-band scatterometer, IEEE Tr. Geos. Remote Sensing, 37(1), 36-47.
  • Reul, N., H. Branger, and J.-P. Giovanangeli, 1999, Air Flow separation above unsteady breaking waves, Banner M, The Wind driven air sea interface, School of Mathematics, University of South Wales, Sydney Australia, pp.223-230, 0 7334 0586 X. ⟨hal-00192503⟩
  • Bliven, L., J.-P. Giovanangeli, H. Branger, and P. Sobieski, 1996, Scatterometer returns from water surfaces agitated by rain. Donelan, Hui and Plant, Air-Sea Interface, University of Toronto Press, pp.680-685. ⟨hal-00229848⟩
  • Mastenbroek, C., V. K. Makin, M. H. Garat, and J.-P. Giovanangeli, 1996, Experimental evidence of the rapid distortion of turbulence in the air flow over water waves, Journal of Fluid Mechanics, 318, pp.273-302. ⟨10.1017/S0022112096007124⟩. ⟨hal-00104409⟩
  • Bliven, L. F., V. Billat, P. W. Sobieski, A. C. Guissard, H. Branger, et al., 1995, An assessment of veering wind effects on scatterometry from the sea surface, International Journal of Remote Sensing, 16, n° 5, pp.891-903. ⟨hal-00104470⟩
  • Bliven, L. F., J.-P. Giovanangeli, 1993, An experimental study of microwave scattering from rain and wind-roughened seas, International Journal of Remote Sensing, 14, n° 5, pp.855-869. ⟨hal-00105051⟩
  • Giovanangeli, J. P., L. F. Bliven, and O. Le Calvé, 1991, A wind-wave tank study of the azimuthal response of a Ka-band scatterometer, IEEE Transactions on Geoscience and Remote Sensing, 29, n° 1, pp.143-148. ⟨10.1109/36.103304⟩. ⟨hal-00104449⟩
  • Bonmarin, B., 1989, Geometric properties of deep-water breaking waves, J. Fluid Mech., 209, 405-433. https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022112089003162
  • Giovanangeli, J.-P., 1988, A new method for measuring static pressure fluctuations with application to wind-wave interaction, Experiments in Fluids, 6, n° 3, pp.156-164. ⟨10.1007/BF00230727⟩. ⟨hal-00105088⟩
  • Giovanangeli, J.-P., P. Chambaud, P. Mestayer, 1987, Ring wire anemometer - Part I : Calibrations and cooling laws, Review of Scientific Instruments, pp.2172. ⟨hal-00105083⟩
  • Giovanangeli, J.-P., P. Chambaud, 1987, Pressure, velocity, and temperature sensitivities of a bleed-type pressure sensor. Review of Scientific Instruments, 58, n° 7, pp.1221-1225. ⟨10.1063/1.1139442⟩. ⟨hal-00105081⟩
  • Mestayer, P., J.-P. Giovanangeli, and P. Chambaud, 1987, Ring wire anemometer - Part II : Measurement of small-scale turbulence, Review of Scientific Instruments, pp.2175. ⟨hal-00105086⟩
  • Giovanangeli, J.-P., A. Memponteil, 1985, Resonant and non-resonant waves excited by periodic vortices in airflow over water. Journal of Fluid Mechanics, 159, pp.69-84. ⟨10.1017/S002211208500310X⟩. ⟨hal-00104412⟩
  • Coantic M., A. Ramamonjiarisoa, P. Mestayer, F. Resch, and A. Favre, 1981, Wind-water tunnel simulation of small-scale ocean-atmosphere interactions, J. Geophysical Res., 86, C7, 6607-6626. http://onlinelibrary.wiley.com/doi/10.1029/JC086iC07p06607/abstract
  • Giovanangeli, J.-P., and A. Ramamonjiarisoa, 1978, Observations de la vitesse de propagation des vagues engendrées par le vent au large. Comptes rendus hebdomadaires des séances de l’Académie des sciences. Série B, Sciences physiques, 287, n° 5, pp.133-136. ⟨hal-00105080⟩
  • Coantic M., and P. Bonmarin, 1975, The air-sea Interaction simulation facility at the Institut de Mécanique Statistique de la Turbulence, Atmospheric Technology, 7, 72-79.
  • Coantic, M., and A. Favre, 1974, Activities in, and preliminary results of, air–sea interactions research at I.M.S.T., Advances in Geophysics, 18, Academic Press, 391-405.
  • Fulachier, L., J.-P. Giovanangeli, R. Dumas, L.S. Kovasznay, and A. Favre, 1974, Structure des perturbations dans une couche limite turbulente : zone d’intermittence, Comptes rendus hebdomadaires des séances de l’Académie des sciences, Série B, Sciences physiques, 1974, 278, n° 23, pp.999-1004. ⟨hal-00105056⟩
  • Fulachier, L. Jean-Paul Giovanangeli, R. Dumas, L.S. Kovasznay, A. Favre, 1974, Structure des perturbations dans une couche limite turbulente : zone interne, Comptes rendus hebdomadaires des séances de l’Académie des sciences, Série B, Sciences physiques, 278, n° 15, pp.683-687. ⟨hal-00105058⟩