Intermittency scaling for mixing and dissipation in Rotating Stratified Turbulence at the edge of instability
Pouquet, A., Rosenberg, D., Marino, R., Mininni, P.. (2023). Intermittency scaling for mixing and dissipation in Rotating Stratified Turbulence at the edge of instability. Atmosphere, doi:10.3390/atmos14091375
| Title | Intermittency scaling for mixing and dissipation in Rotating Stratified Turbulence at the edge of instability |
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| Author(s) | Annick Pouquet, Duane Rosenberg, Raffaele Marino, Pablo Mininni |
| Abstract | Many issues pioneered by Jackson Herring deal with how nonlinear interactions shape atmospheric dynamics. In this context, we analyze new direct numerical simulations of rotating stratified flows with a large-scale forcing, which is either random or quasi-geostrophic (QG). Runs were performed at a moderate Reynolds number Re and up to 1646 turn-over times in one case. We found intermittent fluctuations of the vertical velocity w and temperature theta in a narrow domain of parameters as for decaying flows. Preliminary results indicate that parabolic relations between normalized third- and fourth-order moments of the buoyancy flux proportional to w theta and of the energy dissipation emerge in this domain, including for passive and active scalars, with or without rotation. These are reminiscent of (but not identical to) previous findings for other variables and systems such as oceanic and atmospheric flows, climate re-analysis data, fusion plasmas, the Solar Wind, or galaxies. For QG forcing, sharp scaling transitions take place once the Ozmidov length scale lOz is resolved-lOz being the scale after which a turbulent Kolmogorov energy spectrum likely recovers at high Re. |
| Publication Title | Atmosphere |
| Publication Date | Aug 31, 2023 |
| Publisher's Version of Record | https://dx.doi.org/10.3390/atmos14091375 |
| OpenSky Citable URL | https://n2t.net/ark:/85065/d7z89hgg |
| OpenSky Listing | View on OpenSky |
| CISL Affiliations | CISLAODEPT |