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Active PROJECT GRANT Swedish Research Council

Long-time 2D hydrodynamics via quantization

35.2M kr SEK

Funder Swedish Research Council
Recipient Organization Chalmers University of Technology
Country Sweden
Start Date Jan 01, 2023
End Date Dec 31, 2026
Duration 1,460 days
Number of Grantees 1
Roles Principal Investigator
Data Source Swedish Research Council
Grant ID 2022-03453_VR
Grant Description

Characterization of the long-time behavior of an inviscid incompressible fluid evolving on a closed 2D domain is a long-standing problem in mathematics and physics.

The motion is described by Euler’s equations: a non-linear system with infinitely many conservations laws, yet non-integrable dynamics.

In both experiments and numerical simulations, coherent vortex structures typically form after some stage of initial mixing. These formations dominate the slow, large-scale dynamics. Nevertheless, fast, small-scale dynamics also persist. To rigorously understand this separation of scales is the essence of 2D turbulence.

In this project I use quantization theory to enable mathematical tools for addressing the scale separation.

Central to the idea is a new, canonical splitting of the quantized vorticity which evolves into a separation of scales, thus providing quantitative dynamics for scale separation in the quantized regime. I shall spend 50% of my time in the project. In addition, one post-doc and one PhD student will spend all their research in the project.

All Grantees

Chalmers University of Technology

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