Unified transport scaling laws for plasma blobs and depletions
Permanent link
https://hdl.handle.net/10037/11400Date
2017-06-14Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
We study the dynamics of seeded plasma blobs and depletions in an (effective) gravitational field.
For incompressible flows, the radial center of mass velocity of blobs and depletions is proportional to
the square root of their initial cross-field size and amplitude. If the flows are compressible, this scaling
holds only for ratios of amplitude to size larger than a critical value. Otherwise, the maximum
blob and depletion velocity depends linearly on the initial amplitude and is independent of size. In
both cases, the acceleration of blobs and depletions depends on their initial amplitude relative to the
background plasma density and is proportional to gravity and independent of their cross-field size.
Due to their reduced inertia plasma, depletions accelerate more quickly than the corresponding blobs.
These scaling laws are derived from the invariants of the governing drift-fluid equations for blobs
and agree excellently with numerical simulations over five orders of magnitude for both blobs and
depletions. We suggest an empirical model that unifies and correctly captures the radial acceleration
and maximum velocities of both blobs and depletions.
Description
Source at http://dx.doi.org/10.1063/1.4985318