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Cellular detonation stability. Part 1. A normal-mode linear analysis
Mark Short,
D. Scott Stewart
Mechanical Science and Engineering
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Dive into the research topics of 'Cellular detonation stability. Part 1. A normal-mode linear analysis'. Together they form a unique fingerprint.
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Engineering
Two Dimensional
100%
Activation Energy
100%
One Dimensional
100%
Rate Constant
100%
Ideal Gas
100%
Arrhenius
100%
Group Velocity
100%
Normal Modes
100%
Heat Release
100%
Eigenfunction
100%
Equilibrium Point
100%
Phase Velocity
100%
Linear Analysis
100%
Normal Mode Analysis
100%
Hydrodynamic Stability
100%
Neutral-Stability Boundary
100%
Keyphrases
Detonation
100%
Linear Analysis
100%
Cellular Detonation
100%
Detonation Stability
100%
Stability Boundary
50%
Shock
25%
Two Dimensional
25%
Growth Rate
25%
Eigenfunctions
25%
Ideal Gas
25%
Reaction Equilibrium
25%
Physical Mechanism
25%
Low-frequency Modes
25%
Group Velocity
25%
Wave number
25%
Unstable Modes
25%
Arrhenius
25%
Normal Mode Analysis
25%
Heat Release
25%
Bifurcation Parameter
25%
Solution Method
25%
Phase Velocity
25%
High-frequency Mode
25%
Wavenumber Selection
25%
Hydrodynamic Stability
25%
Unimolecular Reaction
25%
Equilibrium Point
25%
Reaction Activation Energy
25%
Neutral Stability Curve
25%
Jenny Erpenbeck
25%
Shooting Method
25%
Irregular Cells
25%
Linear Disturbance
25%
Neutral Stability
25%
Detonation Velocity
25%
Heat Reaction
25%
Chapman-Jouguet Detonation
25%
Overdriven Detonation
25%
Cell Pattern
25%