An explicit method to determine Casimirs in 2D geophysical flows

Erwin Luesink; Bernard Geurts

doi:10.48550/arXiv.2302.11886

An explicit method to determine Casimirs in 2D geophysical flows

Erwin Luesink, Bernard Geurts

Research output: Working paper › Preprint › Academic

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Abstract

Conserved quantities in geophysical flows play an important role in the characterisation of geophysical dynamics and aid the development of structure-preserving numerical methods. A significant family of conserved quantities is formed by the Casimirs i.e., integral conservation laws that are in the kernel of the underlying Poisson bracket. The Casimirs hence determine the geometric structure of the geophysical fluid equations among which the enstrophy is well known. Often Casimirs are proposed on heuristic grounds and later verified to be part of the kernel of the Poisson bracket. In this work, we will explicitly construct Casimirs by rewriting the Poisson bracket in vorticity-divergence coordinates thereby providing explicit construction of Casimirs for 2D geophysical flow dynamics.

Original language	English
Publisher	ArXiv.org
DOIs	https://doi.org/10.48550/arXiv.2302.11886
Publication status	Published - 23 Feb 2023

Keywords

physics.flu-dyn

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10.48550/arXiv.2302.11886

2302.11886v2Final published version, 181 KB

1 Conference contribution

An explicit method to determine Casimirs in 2D geophysical flows
Luesink, E. & Geurts, B., 4 Aug 2023, Stochastic Transport in Upper Ocean Dynamics II: STUOD 2022 Workshop, London, UK, September 26–29. Springer, p. 193-206 (Mathematics of Planet Earth; vol. 11).
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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abstract = " Conserved quantities in geophysical flows play an important role in the characterisation of geophysical dynamics and aid the development of structure-preserving numerical methods. A significant family of conserved quantities is formed by the Casimirs i.e., integral conservation laws that are in the kernel of the underlying Poisson bracket. The Casimirs hence determine the geometric structure of the geophysical fluid equations among which the enstrophy is well known. Often Casimirs are proposed on heuristic grounds and later verified to be part of the kernel of the Poisson bracket. In this work, we will explicitly construct Casimirs by rewriting the Poisson bracket in vorticity-divergence coordinates thereby providing explicit construction of Casimirs for 2D geophysical flow dynamics. ",

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AB - Conserved quantities in geophysical flows play an important role in the characterisation of geophysical dynamics and aid the development of structure-preserving numerical methods. A significant family of conserved quantities is formed by the Casimirs i.e., integral conservation laws that are in the kernel of the underlying Poisson bracket. The Casimirs hence determine the geometric structure of the geophysical fluid equations among which the enstrophy is well known. Often Casimirs are proposed on heuristic grounds and later verified to be part of the kernel of the Poisson bracket. In this work, we will explicitly construct Casimirs by rewriting the Poisson bracket in vorticity-divergence coordinates thereby providing explicit construction of Casimirs for 2D geophysical flow dynamics.

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M3 - Preprint

BT - An explicit method to determine Casimirs in 2D geophysical flows

PB - ArXiv.org

ER -

An explicit method to determine Casimirs in 2D geophysical flows

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An explicit method to determine Casimirs in 2D geophysical flows

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