AbstractLinear global modes are computed for round helium jets in air at low Reynolds number. The governing equations are formulated in the limit of zero Mach number, and all parameters are chosen such as to model the experiments of Hallberg & Strykowski1. A single axisymmetric mode is found to become unstable beyond a critical Reynolds number value that depends on the initial shear layer thickness. The neutral curve for linear global instability is traced as a function of these two parameters, and this result compares favorably with the experimental reference measurements
International audienceA linear stability analysis shows that the jet in crossflow is characterized b...
The linear stability of axisymmetric jets is studied in a global frame- work, such that the geometry...
Variable density jets are known to support self-sustained oscillations when the jet-to-ambient dens...
AbstractLinear global modes are computed for round helium jets in air at low Reynolds number. The go...
The global stability of laminar axisymmetric low-density jets is investigated in the low Mach number...
International audienceThe linear global stability of laminar buoyant jets and plumes is investigated...
International audienceThe self-sustained formation of synchronized ring vortices in hot subsonic jet...
International audienceThe absolute/convective character of the linear instability of axisymmetric je...
The global stability of a subsonic jet is investigated using a model base flow designed to fit exper...
Many studies have shown that low-density jets exhibit self-excited varicose oscillations. We use dir...
The present work investigates the local modal and non-modal stability of round jets for varying aspe...
International audienceThe stability properties of round variable-density low-Mach-number jets are st...
International audienceA linear stability analysis shows that the jet in crossflow is characterized b...
The linear stability of axisymmetric jets is studied in a global frame- work, such that the geometry...
Variable density jets are known to support self-sustained oscillations when the jet-to-ambient dens...
AbstractLinear global modes are computed for round helium jets in air at low Reynolds number. The go...
The global stability of laminar axisymmetric low-density jets is investigated in the low Mach number...
International audienceThe linear global stability of laminar buoyant jets and plumes is investigated...
International audienceThe self-sustained formation of synchronized ring vortices in hot subsonic jet...
International audienceThe absolute/convective character of the linear instability of axisymmetric je...
The global stability of a subsonic jet is investigated using a model base flow designed to fit exper...
Many studies have shown that low-density jets exhibit self-excited varicose oscillations. We use dir...
The present work investigates the local modal and non-modal stability of round jets for varying aspe...
International audienceThe stability properties of round variable-density low-Mach-number jets are st...
International audienceA linear stability analysis shows that the jet in crossflow is characterized b...
The linear stability of axisymmetric jets is studied in a global frame- work, such that the geometry...
Variable density jets are known to support self-sustained oscillations when the jet-to-ambient dens...