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Diffusive shock acceleration simulations: Comparison with particle methods and bow shock measurements
Hyesung Kang,
T. W. Jones
Physics and Astronomy (Twin Cities)
Research output
:
Contribution to journal
›
Review article
›
peer-review
34
Scopus citations
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Dive into the research topics of 'Diffusive shock acceleration simulations: Comparison with particle methods and bow shock measurements'. Together they form a unique fingerprint.
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Physics & Astronomy
bows
100%
shock
67%
advection
57%
simulation
33%
thermal plasmas
30%
particle acceleration
29%
cosmic rays
22%
fluids
22%
solar wind velocity
18%
injection
18%
Maxwell-Boltzmann density function
16%
protons
16%
interplanetary magnetic fields
15%
shock fronts
14%
closures
12%
physics
7%
approximation
6%
scattering
6%
energy
3%
Earth & Environmental Sciences
advection-diffusion equation
47%
particle
43%
plasma
41%
cosmic ray
40%
simulation
38%
comparison
36%
advection
30%
fluid
30%
method
19%
solar wind
17%
magnetic field
15%
physics
14%
scattering
13%
wind velocity
13%
calculation
9%
energy
8%
test
6%
parameter
6%
rate
5%