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Nonclassical theory of turbulent collisionless plasmas
L. L. Williams
Minnesota Institute for Astrophysics
Research output
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Contribution to journal
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Article
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peer-review
3
Scopus citations
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Physics & Astronomy
collisionless plasmas
100%
fluids
46%
protons
34%
solar wind
17%
dissipation
14%
stellar coronas
14%
turbulence
13%
Coulomb collisions
12%
fluid pressure
11%
Maxwell-Boltzmann density function
11%
expansion
10%
space plasmas
10%
transport theory
10%
stellar winds
10%
particle acceleration
10%
plasma physics
10%
isotropy
10%
fluid dynamics
9%
closures
8%
cosmic rays
7%
transport properties
6%
distribution functions
6%
velocity distribution
6%
viscosity
6%
moments
6%
shear
5%
conductivity
5%
gradients
5%
heating
5%
magnetic fields
4%
Earth & Environmental Sciences
plasma
61%
fluid
45%
solar wind
17%
speed
17%
turbulence
13%
particle
13%
isotropy
11%
cosmic ray
10%
corona
9%
fluid pressure
9%
fluid dynamics
9%
magnetic field
7%
collision
7%
conductivity
7%
compression
6%
viscosity
6%
heating
6%
need
4%
effect
2%