The stability of a high-speed, axisymmetric boundary layer is investigated using secondary instability theory and direct numerical simulation. Parametric studies based on the temporal secondary instability theory identify subharmonic secondary instability as a likely path to transition on a cylinder at Mach 4.5. The theoretical predictions are validated by direct numerical simulation at temporally-evolving primary and secondary disturbances in an axisymmetric boundary-layer flow. At small amplitudes of the secondary disturbance, predicted growth rates agree to several significant digits with values obtained from the spectrally-accurate solution of the compressible Navier-Stokes equations. Qualitative agreement persists to large amplitudes o...
Hypersonic flows over circular cones constitute one of the most important generic configurations for...
The linear and nonlinear evolution of steady and traveling disturbances in three-dimensional incompr...
The stability of compressible 2-D and 3-D boundary layers is reviewed. The stability of 2-D compress...
The secondary instability of the incompressible boundary layer in the axial flow past a cylinder is ...
The secondary instability of the incompressible boundary layer in the axial flow past a cylinder is ...
Secondary instabilities are examined in compressible boundary layers at Mach numbers M(sub infinity)...
Three-dimensional linear secondary instability theory is extended for compressible and high Mach num...
The supersonic flow past a thin straight circular cylinder is investigated. The associated boundary ...
Multiple scaling technique is used to examine the nonparallel instability of supersonic and hyperson...
The nonlinear temporal evolution of disturbances in compressible flow between infinitely long, conce...
The nonlinear time evolution of a second mode instability in a Mach 4.5 wall-bounded flow is compute...
The periodic streamwise modulation of the supersonic and hypersonic boundary layers by a two dimensi...
Parabolized stability equations (PSE) are used in a variational approach to study the optimal, non-m...
Three dimensional linear secondary instability theory is extended for compressible boundary layers o...
Three-dimensional linear secondary instability theory is extended for compressible boundary layers o...
Hypersonic flows over circular cones constitute one of the most important generic configurations for...
The linear and nonlinear evolution of steady and traveling disturbances in three-dimensional incompr...
The stability of compressible 2-D and 3-D boundary layers is reviewed. The stability of 2-D compress...
The secondary instability of the incompressible boundary layer in the axial flow past a cylinder is ...
The secondary instability of the incompressible boundary layer in the axial flow past a cylinder is ...
Secondary instabilities are examined in compressible boundary layers at Mach numbers M(sub infinity)...
Three-dimensional linear secondary instability theory is extended for compressible and high Mach num...
The supersonic flow past a thin straight circular cylinder is investigated. The associated boundary ...
Multiple scaling technique is used to examine the nonparallel instability of supersonic and hyperson...
The nonlinear temporal evolution of disturbances in compressible flow between infinitely long, conce...
The nonlinear time evolution of a second mode instability in a Mach 4.5 wall-bounded flow is compute...
The periodic streamwise modulation of the supersonic and hypersonic boundary layers by a two dimensi...
Parabolized stability equations (PSE) are used in a variational approach to study the optimal, non-m...
Three dimensional linear secondary instability theory is extended for compressible boundary layers o...
Three-dimensional linear secondary instability theory is extended for compressible boundary layers o...
Hypersonic flows over circular cones constitute one of the most important generic configurations for...
The linear and nonlinear evolution of steady and traveling disturbances in three-dimensional incompr...
The stability of compressible 2-D and 3-D boundary layers is reviewed. The stability of 2-D compress...