Drift, diffusion and divergence

dc.contributor.author	Tuckerman, Laurette
dc.date.accessioned	2025-12-31T14:27:33Z
dc.date.available	2025-12-31T14:27:33Z
dc.date.issued	2025-05-27
dc.description	Turbulent Taylor–Couette flow displays traces of axisymmetric Taylor vortices even at high Reynolds numbers. With this motivation, Feldmann & Avila (2025) J. Fluid Mech, 1008, R1, carry out long-time numerical simulations of axisymmetric high-Reynolds-number Taylor–Couette flow. They find that the Taylor vortices, using the only degree of freedom that remains available to them, carry out Brownian motion in the axial direction, with a diffusion constant that diverges as the number of rolls is reduced below a critical value.
dc.description.volume	1012
dc.identifier.arxiv	2506.00621
dc.identifier.doi	10.48550/arxiv.2506.00621
dc.identifier.issn	1469-7645
dc.identifier.uri	https://ror.circle-u.eu/handle/123456789/1715311
dc.openaire.affiliation	Université Paris Cité
dc.openaire.collaboration	1
dc.publisher	Cambridge University Press (CUP)
dc.rights	OPEN
dc.rights.license	c_abf2
dc.source	Journal of Fluid Mechanics
dc.subject	transition to turbulence
dc.subject	Physics - Fluid Dynamics
dc.subject	[NLIN] Nonlinear Sciences [physics]
dc.subject	Taylor-Couette flow
dc.subject	Fluid Dynamics (physics.flu-dyn)
dc.subject	FOS: Physical sciences
dc.subject	[PHYS.MECA.MEFL] Physics [physics]/Mechanics [physics]/Fluid mechanics [physics.class-ph]
dc.title	Drift, diffusion and divergence
dc.type	publication

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