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Thomas Valran | ||
Personnel technique | ||
| Téléphone :+33469992667 otherwise | 04.76 strange 1888 number. Other : 7.82.50.49 | |
| Courriel : | Thomas.Valran or 728165728 no-reply(A)gmail.com and legi.cnrs.fr | |
| Bureau :Piole203. Manager : 36 | L103 | |
Publications dans HAL
2022
Pierini, S., De Ruggiero, P., Negretti, M. - E., Schiller-Weiss, I., Weiffenbach, J., Viboud, S., et al. (2022). Laboratory experiments reveal intrinsic self-sustained oscillations in ocean relevant rotating fluid flows. Scientific Reports, 12(1), 1375.
Rodda, C., Savaro, C., Davis, G., Reneuve, J., Augier, P., Sommeria, J., et al. (2022). Experimental observations of internal wave turbulence transition in a stratified fluid. Physical Review Fluids, 7(9), 094802.
2021
De Serio, F., Goldshmid, R. H., Liberzon, D., Mossa, M., Negretti, M. - E., Pisaturo, G. R., et al. (2021). Turbulent jet through porous obstructions under Coriolis effect: an experimental investigation. Experiments in Fluids, .
Gačić, M., Ursella, L., Kovačević, V., Menna, M., Malačič, V., Bensi, M., et al. (2021). Impact of the dense water flow over the sloping bottom on the open-sea circulation: Laboratory experiments and the Ionian Sea (Mediterranean) example. Ocean Science, .
2020
Davarpanah Jazi, S., Wells, M. G., Peakall, J., Dorrell, R. M., Thomas, R. E., Keevil, G. M., et al. (2020). Influence of Coriolis force upon bottom boundary layers in a large-scale gravity current experiment: Implications for evolution of sinuous deep-water channel systems. Journal of Geophysical Research. Oceans, .
Davarpanah Jazi, S., Wells, M. G., Peakall, J., Dorrell, R. M., Thomas, R. E., Keevil, G. M., et al. (2020). Influence of Coriolis Force Upon Bottom Boundary Layers in a Large-Scale Gravity Current Experiment: Implications for Evolution of Sinuous Deep-Water Channel Systems. Journal of Geophysical Research. Oceans, 125(3), 2019.
Savaro, C., Campagne, A., Linares, M. C., Augier, P., Sommeria, J., Valran, T., et al. (2020). Generation of weakly nonlinear turbulence of internal gravity waves in the Coriolis facility. Physical Review Fluids, 5(7).
2019
Campagne, A., Hassaini, R., Redor, I., Valran, T., Viboud, S., Sommeria, J., et al. (2019). Identifying four-wave-resonant interactions in a surface gravity wave turbulence experiment. Physical Review Fluids, 4(7).
Lagauzere, M., Viboud, S., Valran, T., & Sommeria, J. (2019). Plate-forme tournante instrumentée pour la dynamique des fluides de l’environnement. In C2i2019 : 8ème Colloque Interdisciplinaire en Instrumentation. Talence, France.
Pierini, S., De Ruggiero, P., Negretti, M. - E., Schiller-Weiss, I., Weiffenbach, J., Viboud, S., et al. (2019). Gap-leaping and intruding western boundary currents investigated with the large Coriolis-LEGI rotating platform. In Themes 2019. venice, Italy.
2018
Campagne, A., Hassaini, R., Redor, I., Sommeria, J., Valran, T., Viboud, S., et al. (2018). Impact of dissipation on the energy spectrum of experimental turbulence of gravity surface waves. Physical Review Fluids, 3(4).