g. falkovich leiden, august 2006
DESCRIPTION
Smooth, rough, broken: From Lyapunov exponents and zero modes to caustics in the description of inertial particles. G. Falkovich Leiden, August 2006. Smooth flow. 1d. H is convex. Multi-dimensional. → singular (fractal) SRB Measure. entropy. Coarse-grained density. - PowerPoint PPT PresentationTRANSCRIPT
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Smooth, rough, broken:
From Lyapunov exponents and zero modes to
caustics in the description of inertial particles.
G. Falkovich
Leiden, August 2006
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Smooth flow
1d
dze zNSzX )(
0)0( H
H is convex
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Multi-dimensional
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entropy
→ singular (fractal) SRB Measure )exp( tn mm
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An anomalous scaling corresponds to slower divergence of particles to get more weight.Statistical integrals of motion (zero modes) of the backward-in-time evolution compensate the increase in the distances by the concentration decrease inside the volume. Bec, Gawedzki, Horvai, Fouxon
Coarse-grained density
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u
v
Maxey
Inertial particles
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Spatially smooth flow
One-dimensional model
Equivalent in 1d to Anderson localization: localization length=Lyapunov exponent
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Velocity gradient
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Fouxon, Stepanov, GF
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Lyapunov exponent
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Gawedzki, Turitsyn and GF.
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dnndtdnnPtttn 20 )()/(1)(
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Statistics of inter-particle distance in 1d
high-order moments correspond effectively to large Stokes
Rdt
dR
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Piterbarg, Turitsyn, Derevyanko, Pumir, GF
||/1 RnContinuous flow
?|| mm Rn
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Derevyanko
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2d short-correlated
Baxendale and Harris, Chertkov, Kolokolov ,Vergassola, Piterbarg, Mehlig and Wilkinson
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Coarse-grained density:
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Falkovich, Lukaschuk, Denissenko
n-2
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3d
Bec, Biferale, Boffetta, Cencini, Musacchio, Toschi
Finite-correlated flow
Short-correlated flow
Duncan, Mehlig, Ostlund, Wilkinson
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Clustering versus mixing in the inertial interval:
Balkovsky, Fouxon, Stepanov, GF, Horvai, Bec Cencini, Hillerbrand
2/)1( ruUvdiv r
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Fouxon, Horvai
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Fluid velocity roughness decreases clustering of particles
Pdf of velocity difference has a power tail
Bec, Cencini, Hillerbrand
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Collision rate
Fouxon, Stepanov, GF
Bezugly, Mehlig and Wilkinson
Pumir, GF
Sundaram, Collins; Balkovsky, Fouxon, GF
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1. To understand relations between the Lagrangian and Eulerian descriptions.
2. To sort out two contributions into different quantities: i) from a smooth dynamics and multi-fractal spatial distribution, and ii) from explosive dynamics and caustics.
3. Find how collision rate and density statistics depend on the dimensionless parameters (Reynolds, Stokes and Froude numbers).
Main open problems