INIS
turbulence
100%
tensors
100%
anisotropy
100%
energy dissipation
100%
gravity waves
100%
energy transfer
100%
atmospherics
100%
inertia
54%
atmospheres
27%
motion
27%
computerized simulation
27%
mixing
18%
investigations
18%
mesosphere
18%
large-eddy simulation
18%
prediction
9%
dynamics
9%
rotation
9%
energy
9%
resolution
9%
distance
9%
transfer (energy)
9%
range
9%
stratification
9%
altitude
9%
reynolds number
9%
instability
9%
general circulation models
9%
Earth and Planetary Sciences
Anisotropy
100%
Energy Transfer
100%
Atmospheric Turbulence
100%
Energy Dissipation
100%
Gravity Wave
100%
Turbulence
45%
Event
36%
High Frequency
27%
Wave Breaking
27%
Investigation
18%
Mesosphere
18%
Planetary Atmosphere
18%
Large Eddy Simulation
18%
Whirl
9%
High Reynolds Number
9%
Region
9%
Upper Atmosphere
9%
Low Altitude
9%
General Circulation Model
9%
High Resolution
9%
Low Frequency
9%
Foci
9%
Engineering
Atmospheric Turbulence
100%
Gravity Wave
100%
Energy Engineering
100%
Turbulence
45%
Models
36%
Small Scale
27%
Direct Numerical Simulation
27%
Large Eddy Simulation
18%
Large Distance
9%
Scale Dynamic
9%
Parametrization
9%
Simulation Result
9%
Scale Motion
9%
Physics
Energy Transfer
100%
Direct Numerical Simulation
27%
Rotation
9%
Region
9%