Comptes Rendus
no. S3
Avant-propos
Foreword to the special issue: Geophysical and astrophysical fluid dynamics in the laboratory
[Avant-propos du numéro spécial : Dynamique des fluides géophysiques et astrophysiques au laboratoire]
Michael Le Bars1   ; Stephan Fauve2 
1 CNRS, Aix Marseille Univ, Centrale Marseille, IRPHE, Marseille, France
2 Laboratoire de Physique de l’École Normale Supérieure, ENS, Université PSL, CNRS, Sorbonne Université, Université de Paris, 75005 Paris, France
Comptes Rendus. Physique, Geophysical and astrophysical fluid dynamics in the laboratory, Volume 25 (2024) no. S3, pp. 1-4.

This special issue brings together 19 review articles addressing a broad range of problems in geophysical and astrophysical fluid dynamics, reflecting both the current state of the art and ongoing research, with a special focus on the contribution of laboratory experiments. This foreword outlines the general context and key challenges of the field, and places the individual contributions in perspective.

Ce numéro spécial réunit 19 articles de revue couvrant un large spectre de problématiques en dynamique des fluides géophysiques et astrophysiques, reflétant à la fois l’état de l’art et les recherches en cours, avec un accent particulier sur l’apport des expériences en laboratoire. Cette préface présente le contexte général et les principaux défis du domaine, et met en perspective les différentes contributions.

Reçu le :
Accepté le :
Première publication :
Publié le :
DOI : 10.5802/crphys.253
Keywords: Geophysical fluid dynamics, Astrophysical fluid dynamics, Laboratory experiments
Mots-clés : Dynamique des fluides géophysiques, Dynamique des fluides astrophysiques, Expériences de laboratoire

Michael Le Bars 1 ; Stephan Fauve 2

1 CNRS, Aix Marseille Univ, Centrale Marseille, IRPHE, Marseille, France
2 Laboratoire de Physique de l’École Normale Supérieure, ENS, Université PSL, CNRS, Sorbonne Université, Université de Paris, 75005 Paris, France
Licence : CC-BY 4.0
Droits d'auteur : Les auteurs conservent leurs droits 
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     title = {Foreword to the special issue: {Geophysical} and astrophysical fluid dynamics in the laboratory},
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     pages = {1--4},
     publisher = {Acad\'emie des sciences, Paris},
     volume = {25},
     number = {S3},
     year = {2024},
     doi = {10.5802/crphys.253},
     language = {en},
}
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Michael Le Bars; Stephan Fauve. Foreword to the special issue: Geophysical and astrophysical fluid dynamics in the laboratory. Comptes Rendus. Physique, Geophysical and astrophysical fluid dynamics in the laboratory, Volume 25 (2024) no. S3, pp. 1-4. doi : 10.5802/crphys.253. https://comptes-rendus.academie-sciences.fr/physique/articles/10.5802/crphys.253/

[1] G. Hadjerci; V. Bouillaut; B. Miquel; S. Aumaître; B. Gallet Radiatively driven convection: diffusivity-free regimes of geophysical and astrophysical flows in the laboratory, C. R. Phys., Volume 25 (2024) no. S3, pp. 5-20 | DOI

[2] A. Pothérat; S. Horn Seven decades of exploring planetary interiors with rotating convection experiments, C. R. Phys., Volume 25 (2024) no. S3, pp. 21-75 | DOI

[3] A. Tilgner Experiments on double diffusive convection, C. R. Phys., Volume 25 (2024) no. S3, pp. 77-94 | DOI

[4] S. Carpy; M. Berhanu; M. Chaigne; S. C. du Pont Fingerprints of surface flows on solid substrates ablated by phase change: from laboratory experiments to planetary landscapes, C. R. Phys., Volume 25 (2024) no. S3, pp. 95-142 | DOI

[5] L. Huguet; Q. Kriaa; T. Alboussière; M. L. Bars Solid–liquid phase change in planetary cores, C. R. Phys., Volume 25 (2024) no. S3, pp. 143-181 | DOI

[6] J. Vidal; J. Noir; D. Cébron; F. Burmann; R. Monville; V. Giraud; Y. Charles Geophysical flows over topography, a playground for laboratory experiments, C. R. Phys., Volume 25 (2024) no. S3, pp. 183-234 | DOI

[7] M. Poulain-Zarcos; N. Pujara; G. Verhille; M. J. Mercier Laboratory experiments related to marine plastic pollution: a review of past work and future directions, C. R. Phys., Volume 25 (2024) no. S3, pp. 235-266 | DOI

[8] P. Claudin; S. C. du Pont; C. Narteau From lab to landscape-scale experiments for the morphodynamics of sand dunes, C. R. Phys., Volume 25 (2024) no. S3, pp. 267-295 | DOI

[9] P. Philippe; N. Benahmed Quantifying soil surface erosion, C. R. Phys., Volume 25 (2024) no. S3, pp. 297-332 | DOI

[10] R. Deguen; L. Huguet; M. Landeau; V. Lherm; A. Maller; J.-B. Wacheul Fluid dynamics of planetary differentiation, C. R. Phys., Volume 25 (2024) no. S3, pp. 333-377 | DOI

[11] U. Harlander; M. V. Kurgansky; K. Speer; M. Vincze Baroclinic instability from an experimental perspective, C. R. Phys., Volume 25 (2024) no. S3, pp. 379-426 | DOI

[12] P. Read; Y. Afanasyev; J. Aurnou; D. Lemasquerier Eddy-driven zonal jet flows in the laboratory, C. R. Phys., Volume 25 (2024) no. S3, pp. 427-477 | DOI

[13] A. Lefauve Geophysical stratified turbulence and mixing in the laboratory, C. R. Phys., Volume 25 (2024) no. S3, pp. 479-507 | DOI

[14] S. Joubaud; S. Boury; P. Odier Internal gravity waves versus inertial waves in the laboratory, C. R. Phys., Volume 25 (2024) no. S3, pp. 509-535 | DOI

[15] P.-P. Cortet; N. Lanchon Turbulence of internal gravity waves in the laboratory, C. R. Phys., Volume 25 (2024) no. S3, pp. 537-556 | DOI

[16] B. Semin; F. Pétrelis Quasi-biennial oscillation: laboratory experiments, C. R. Phys., Volume 25 (2024) no. S3, pp. 557-581 | DOI

[17] C. Gissinger Laboratory modeling of MHD accretion disks, C. R. Phys., Volume 25 (2024) no. S3, pp. 583-610 | DOI

[18] F. Pétrélis Experimental dynamos: from models to applications to the geodynamo, C. R. Phys., Volume 25 (2024) no. S3, pp. 611-627 | DOI

[19] F. Stefani; S. Anders; S. Eckert et al. The DRESDYN precession experiment, C. R. Phys., Volume 25 (2024) no. S3, pp. 629-647 | DOI

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