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Numerical simulations of the Princeton magneto-rotational instability experiment with conducting axial boundaries

We investigate numerically the Princeton magneto-rotational instability (MRI) experiment and the effect of conducting axial boundaries or endcaps. MRI is identified and found to reach a much higher saturation than for insulating endcaps. This is probably due to stronger driving of the base flow by the magnetically rather than viscously coupled boundaries. Although the computations are necessarily limited to lower Reynolds numbers ($\Re$) than their experimental counterparts, it appears that the saturation level becomes independent of $\Re$ when $\Re$ is sufficiently large, whereas it has been found previously to decrease roughly as $\Re^{-1/4}$ with insulating endcaps. The much higher saturation levels will allow for the first positive detection of MRI beyond its theoretical and numerical predictions.

preprint2016arXivOpen access
Xing WeiHantao JiJeremy GoodmanFatima EbrahimiErik GilsonFrank JenkoKarl Lackner
physics.plasm-phphysics.flu-dynastro-ph.EPastro-ph.SR
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Xing WeiHantao JiJeremy GoodmanFatima EbrahimiErik GilsonFrank JenkoKarl Lackner

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