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Stationarity of linearly forced turbulence in finite domains
E. Gravanis, E. Akylas
Department of Engineering
Cyprus University of Technology
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peer-review
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Mathematics
Coefficient
6%
Context
7%
Correlator
17%
Decay
10%
Deviation
11%
Direct numerical Simulation
54%
Finiteness
37%
Fixed point
8%
Fluctuations
12%
Forcing
50%
Imply
8%
Isotropy
29%
Length Scale
31%
Linearly
71%
Periodic Boundary Conditions
13%
Preservation
12%
Reynolds number
13%
Scaling
10%
Self-similarity
14%
Similarity
10%
Simplicity
11%
Stationarity
95%
Stationary States
89%
Structure-function
16%
Symmetry
60%
Symmetry Breaking
15%
Term
6%
Turbulence
100%
Turbulence Model
17%
Velocity Field
26%
Viscosity
11%
Physics & Astronomy
boundary conditions
9%
broken symmetry
11%
coefficients
6%
correlators
13%
decay
7%
deviation
9%
direct numerical simulation
38%
isotropic turbulence
15%
isotropy
29%
microbalances
12%
preserving
12%
Reynolds number
10%
scaling
8%
symmetry
51%
turbulence
67%
turbulence models
14%
velocity distribution
19%
viscosity
9%