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DynMode investigates the complex interactions of magnetic fields and fluid dynamics in astrophysical objects. By utilizing data-driven models, the project aims to enhance understanding of how these dynamos operate across different scales.
Magnetic fields are ubiquitous in the Universe, and are thought to play a key role in evolution of stars, planets, accretion discs and black holes.
Although it is generally accepted that these fields are created by the motions of conductive fluids – hydromagnetic dynamos, there is no ab initio predictive theory for their origin and evolution.
Because of nonlinear coupling between magnetic field and fluid flow, and also due to extreme parameters of astrophysical objects, dynamos arise from intera…
UNIVERSITY OF LEEDS
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