Characteristics of disturbances in the laminar–turbulent transition of spherical Couette flow. 1. Spiral Taylor–Görtler vortices and traveling waves for narrow gaps
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Publication:3556233
DOI10.1063/1.1502661zbMath1185.76273OpenAlexW2092710327MaRDI QIDQ3556233
Yoichi Tsuchida, Koichi Nakabayashi, Zhi Ming Zheng
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1502661
fluctuationsvorticesCouette flowflow visualisationsurface waves (fluid)laminar to turbulent transitions
Related Items (3)
Axisymmetric pulse train solutions in narrow-gap spherical Couette flow ⋮ Superfluid spherical Couette flow ⋮ Characteristics of disturbances in the laminar–turbulent transition of spherical Couette flow. 2. New disturbances observed for a medium gap
Cites Work
- A divergence-free spectral expansions method for three-dimensional flows in spherical-gap geometries
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- Routes to chaos in wide-gap spherical Couette flow
- Characteristics of disturbances in the laminar–turbulent transition of spherical Couette flow. 2. New disturbances observed for a medium gap
- The first instability in spherical Taylor-Couette flow
- Simulation of flow between concentric rotating spheres. Part 1. Steady states
- Simulation of flow between concentric rotating spheres. Part 2. Transitions
- Viscous incompressible flow between concentric rotating spheres. Part 3. Linear stability and experiments
- The linear stability of the flow in a narrow spherical annulus
- Symmetry-breaking bifurcations in spherical Couette flow
- Viscous incompressible flow between concentric rotating spheres. Part 1. Basic flow
- Viscous incompressible flow between concentric rotating spheres. Part 2. Hydrodynamic stability
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