Physics & Astronomy
electrostatics
100%
neutron stars
79%
magnetohydrodynamic stability
70%
magnetic fields
68%
proton beams
67%
ion acoustic waves
61%
electromagnetism
50%
ambipolar diffusion
46%
cylindrical plasmas
45%
acoustic instability
45%
charged particles
43%
backward waves
40%
electrons
38%
neutrinos
35%
fluids
34%
terrestrial planets
33%
electric fields
31%
Landau damping
31%
crusts
31%
solar wind
30%
zincblende
30%
argon
28%
protons
28%
ions
28%
plasma waves
27%
electrostatic waves
27%
showers
26%
decay
26%
cells
26%
scintillation
23%
thresholds
23%
magnetic flux
22%
simulation
22%
deposits
22%
phase velocity
21%
liquid phases
20%
interpolation
20%
particle accelerators
20%
liquids
19%
projection
19%
neutral particles
19%
quantum dots
19%
ohmic dissipation
18%
planets
18%
pumps
17%
energy
17%
detectors
17%
graphical user interface
17%
oscillations
16%
grids
16%
Engineering & Materials Science
Argon
46%
Scintillation
34%
Electrons
33%
Detectors
28%
Liquids
27%
Electrostatics
26%
Power markets
25%
Light absorption
24%
Deposits
24%
Impurities
23%
Convolutional neural networks
22%
Charged particles
20%
Hydrostatic pressure
19%
Electricity
18%
Proton beams
16%
Electric fields
15%
Electrooptical devices
14%
Coulomb interactions
13%
Ion acoustic waves
11%
Experiments
10%
Ionization chambers
10%
Hamiltonians
9%
Electroluminescence
9%
Potential energy
9%
Astrophysics
9%
Photomultipliers
8%
Plasma stability
8%
Atoms
8%
Calorimetry
8%
Photons
7%
Phase velocity
6%
Risk management
6%
Fabrication
6%
Protons
5%
Wavelength
5%
Planning
5%
Earth & Environmental Sciences
magnetic field
74%
plasma
49%
acoustic wave
43%
ion
34%
thermal evolution
29%
acoustics
29%
solar wind
28%
planet
22%
pump
21%
particle
20%
crust
18%
dissipation
15%
phase velocity
14%
fluid
14%
timescale
13%
electron
12%
collision
11%
toroidal field
10%
oscillation
9%
effect
9%
magnetosphere
8%
energy
6%
electron density
6%
simulation
6%
speed
6%
geometry
5%
recombination
5%
magnetopause
5%
advection
5%
preserve
5%
conductivity
5%
nonlinear wave
5%
