Physics
Reynolds Number
100%
Direct Numerical Simulation
47%
Isotropic Turbulence
42%
Turbulent Flow
35%
Rayleigh Number
34%
Superfluid
33%
Free Convection
29%
Vorticity
27%
Homogeneous Turbulence
22%
Turbulent Mixing
21%
Boundary Layer
16%
Aspect Ratio
16%
Atmospherics
14%
Gaussian Distribution
12%
Solar Interior
10%
Heat Transfer
10%
Fluid Flow
10%
Surface Layers
10%
Kinematic Viscosity
9%
Navier-Stokes Equation
9%
Diffusivity
9%
Vortex Shedding
9%
Dynamical System
8%
Asteroseismology
8%
Planetary Atmosphere
8%
Physics
8%
Liquid Helium
8%
Kinetic Energy
8%
Superfluidity
8%
Convection Cell
7%
Oscillating Cylinder
7%
Quantum Fluid
7%
Prandtl Number
7%
Advection
7%
Quantum Computing
7%
Helioseismology
6%
Working Fluid
6%
Magnetic Field
6%
Quantum Dot
5%
Geophysics
5%
Coupled Mode
5%
Non-Equilibrium Process
5%
Supergranulation
5%
Nonlinear System
5%
Vortex Ring
5%
Cosmic Microwave Background
5%
Solar Flare
5%
Wind Tunnels
5%
Power Spectra
5%
Boundary Condition
5%
Engineering
Reynolds' Number
70%
Isotropic Turbulence
39%
High Reynolds Number
37%
Direct Numerical Simulation
31%
Structure Function
26%
Homogeneous Turbulence
23%
Turbulent Flow
21%
Rayleigh Number
20%
Scaling Exponent
19%
Schmidt Number
18%
Temperature Fluctuation
18%
Taylor Microscale
13%
Dissipation Rate
11%
Computer Simulation
11%
Energy Dissipation
11%
Multifractal
10%
Two Dimensional
10%
Shear Flow
10%
Grid Turbulence
10%
One Dimensional
10%
Scaling Law
9%
Local Isotropy
9%
Diffusivity
9%
Aspect Ratio
8%
Energy Cascade
8%
Probability Density Function
8%
Fluid Viscosity
8%
Convective
8%
Navier-Stokes Equation
8%
Prandtl Number
8%
Vorticity
7%
Boundary Layer
7%
Gaussians
7%
Energy Dissipation Rate
7%
Low-Temperature
7%
Oscillating Cylinder
7%
Velocity Field
7%
Similarities
7%
Energy Engineering
7%
Microscale
6%
Scale Structure
6%
Turbulent Velocity
6%
Velocity Gradient
6%
Batchelor
6%
Separation Distance
5%
Cross Section
5%
Streamwise
5%
Turbulent Boundary Layer
5%
Superfluids
5%
Bottom Plate
5%
Keyphrases
Turbulence
38%
Reynolds number
28%
Intermittency
21%
Isotropic Turbulence
21%
Turbulent Convection
19%
Direct numerical Simulation
17%
High Rayleigh number
16%
Convection
16%
Velocity Increment
15%
High Reynolds number
15%
Three-dimensional (3D)
13%
Rayleigh number
12%
Aspect Ratio
12%
Inertial Range
12%
Scaling Exponent
12%
Turbulent Flow
11%
Turbulent Shear Flows
9%
Numerical Simulation
9%
Temperature Fluctuation
8%
Dissipation Rate
7%
OpenFlow
7%
Quantum Turbulence
7%
Probability Density Function
7%
Energy Dissipation Rate
7%
Fluid Flow
7%
Scalar
6%
Grid Turbulence
6%
Low Prandtl number
6%
Superfluid Helium
6%
Scalar Dissipation Rate
6%
Structure Function
6%
Law
6%
Kolmogorov
6%
Turbulent Thermal Convection
6%
Multifractal
6%
Non-Boussinesq
5%
Velocity Field
5%
Heat Transport
5%
Scalar Dissipation
5%
Homogeneous Turbulence
5%
Inertial Waves
5%
Helium Gas
5%
Similarity Hypothesis
5%
Streamwise
5%
High Prandtl number
5%
Prandtl number
5%
Thermal Convection
5%
Multifractal Nature
5%
Local Isotropy
5%
Reynolds number Scaling
5%
