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Spinning instability of gaseous detonations
Aslan R. Kasimov,
D. Scott Stewart
Mechanical Science and Engineering
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peer-review
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Keyphrases
Spinning Detonation
100%
Gaseous Detonation
100%
Activation Energy
66%
Heat Release
66%
Three-dimensional (3D)
33%
Initial Pressure
33%
Tube Diameter
33%
Bifurcation
33%
Hydrodynamic Instability
33%
Detonation Wave
33%
Heat Release Rate
33%
Linear Perturbation
33%
Seventy Years
33%
Neutral Stability Curve
33%
Arrhenius Model
33%
Circular Tube
33%
Pressure-diameter
33%
Heat Activation
33%
Spin-wave Modes
33%
Engineering
Activation Energy
100%
Heat Release
100%
Hydrodynamics
50%
Initial Pressure
50%
Dilution
50%
Arrhenius
50%
Normal Modes
50%
Diameter Tube
50%
Heat Release Rate
50%
Circular Tubes
50%
Detonation Wave
50%
Heat Activation
50%