Mathematics
Substrate
93%
Nematic Liquid Crystal
79%
Contact Line
69%
Fluid
68%
Thin Films
51%
Experiment
46%
Droplet
37%
Liquid
37%
Simulation
36%
Wetting
32%
Model
31%
Filament
30%
Thin Film Flow
30%
Influence
30%
Inclined
29%
Lubrication Approximation
28%
Granular Materials
28%
Volume of Fluid Method
27%
Modeling
25%
Granular Media
24%
Pattern Formation
24%
Liquid Crystal Display
23%
Interaction
21%
Linear Stability Analysis
21%
Breakup
20%
Velocity Profile
20%
Contact Angle
19%
Precursor
19%
Friction
19%
Electric Field
19%
Stick-slip
18%
Packing
18%
Surface Tension
18%
Inclination
18%
Bubble
17%
Fluid-solid Interaction
16%
Predict
15%
Hele-Shaw Flow
15%
Metals
14%
Evaporation
14%
Free Surface
14%
Scaling
14%
Wavelength
14%
Discrete Elements
14%
Persistence
14%
Jamming
14%
Perturbation
14%
Pentagon
13%
Physics & Astronomy
drying
73%
fluids
68%
simulation
55%
thin films
54%
liquids
46%
liquid crystals
43%
granular materials
41%
filaments
40%
fluid films
38%
friction
37%
wetting
37%
particulates
34%
planetary waves
30%
sonoluminescence
30%
lubrication
29%
perturbation
28%
assembly
25%
plateaus
25%
gravitation
24%
metal films
24%
self assembly
24%
pulsed lasers
23%
jamming
22%
nanoparticles
21%
geometry
20%
bubbles
20%
interactions
20%
liquid phases
20%
slip
19%
interfacial tension
18%
electric contacts
18%
velocity distribution
17%
approximation
16%
homology
16%
rings
16%
film thickness
15%
shear thinning
15%
liquid metals
15%
taps
14%
frost
14%
gliding
13%
fluid-solid interactions
13%
shaking
13%
topology
12%
Navier-Stokes equation
12%
emerging
12%
shear
12%
scaling
12%
shearing
12%
inclination
11%
Engineering & Materials Science
Thin films
100%
Substrates
94%
Fluids
92%
Nematic liquid crystals
67%
Liquids
52%
Gravitation
40%
Linear stability analysis
38%
Nanoparticles
37%
Pulsed lasers
35%
Liquid films
34%
Self assembly
30%
Wetting
30%
Liquid metals
29%
Lubrication
24%
Experiments
24%
Contact angle
23%
Surface tension
23%
Geometry
21%
Granular materials
19%
Phase separation
16%
Film thickness
16%
Molecular dynamics
15%
Metals
15%
Computer simulation
15%
Wavelength
14%
Laser pulses
13%
Navier Stokes equations
11%
Direct numerical simulation
11%
Thermal effects
11%
Nanostructures
11%
Partial differential equations
10%
Friction
10%
Membranes
9%
Hydrodynamics
9%
Capillarity
9%
Laser heating
9%
Viscosity
9%
Copper
9%
Fluxes
9%
Hoppers
8%
Flow rate
8%
Newtonian flow
8%
Temperature
8%
Non Newtonian flow
7%
Pressure drop
7%
Interfacial energy
7%
Metallic films
7%
Channel flow
7%
Magnetic fluids
7%
Gases
6%