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Linear and nonlinear dynamics of pulsatile channel flow
Benoît Pier,
Peter J. Schmid
Research output
:
Contribution to journal
›
Article
›
peer-review
18
Scopus citations
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Dive into the research topics of 'Linear and nonlinear dynamics of pulsatile channel flow'. Together they form a unique fingerprint.
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Engineering
Amplitude Modulation
50%
Amplitudes
100%
Base Flow
75%
Channel Flow
100%
Complete Navier
25%
Control Parameter
25%
Cycles
50%
Decay Rate
25%
Dimensional Control
25%
Dimensionless
25%
Direct Numerical Simulation
50%
Flow Rate
50%
Growth Rate
25%
Large Amplitude
25%
Low Frequency
25%
Navier-Stokes Equation
25%
Non-Linear Dynamics
100%
Nonlinearity
25%
Parameter Space
25%
Periodic Time
25%
Propagating Wave
25%
Reynolds' Number
25%
Small Amplitude
50%
Stability Characteristic
25%
Tollmien-Schlichting Wave
25%
Two Dimensional
25%
Earth and Planetary Sciences
Amplitude
100%
Amplitude Modulation
28%
Ballistics
42%
Base Flow
42%
Channel Flow
100%
Cruising
28%
Cycle
28%
Decay Rate
14%
Destabilization
14%
Flow Velocity
28%
Growth Rate
14%
Increasing
14%
Low Frequency
14%
Navier-Stokes Equation
14%
Nonlinearity
14%
Parameter
28%
Regime
85%
Region
14%
Reynolds Number
14%
Simulation
28%
Stability
14%
Stable
14%
Time
14%
Tollmien-Schlichting Wave
14%
Value
14%
Wave
14%
Waveform
14%
Physics
Amplitude Modulation
28%
Amplitudes
100%
Ballistics
42%
Base Flow
42%
Channel Flow
100%
Cycles
28%
Direct Numerical Simulation
28%
Flow Velocity
28%
Frequencies
71%
Growth
14%
Increasing
14%
Independent Variables
14%
Navier-Stokes Equation
14%
Parameter
14%
Regimes
85%
Region
14%
Reynolds Number
14%
Stability
14%
Tollmien-Schlichting Waves
14%
Value
14%
INIS
amplitudes
100%
computerized simulation
22%
configuration
11%
control
11%
decay
11%
dynamics
100%
flow rate
22%
growth
11%
increasing
11%
modulation
33%
navier-stokes equations
11%
nonlinear problems
100%
periodicity
11%
perturbations
33%
pulsations
66%
reynolds number
11%
solutions
11%
space
11%
stability
11%
values
11%
wave forms
11%