Multi-scale dynamics of Kelvin–Helmholtz instabilities. Part 1. Secondary instabilities and the dynamics of tubes and knots
DOI10.1017/JFM.2021.1085zbMath1501.76033OpenAlexW4293239635MaRDI QIDQ5073465
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Publication date: 29 April 2022
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2021.1085
direct numerical simulationtransition to turbulencevortex interactionshear-flow instabilitypolar mesospheric cloud instabilitysecondary convective instability
Direct numerical and large eddy simulation of turbulence (76F65) Interfacial stability and instability in hydrodynamic stability (76E17) Stability and instability of geophysical and astrophysical flows (76E20)
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Cites Work
- Low-storage Runge-Kutta schemes
- Streamwise vortices in large-eddy simulations of mixing layers
- Self-similar states in turbulent mixing layers
- On the Kelvin–Helmholtz route to turbulence
- The ‘zoo’ of secondary instabilities precursory to stratified shear flow transition. Part 1 Shear aligned convection, pairing, and braid instabilities
- On the role of optimal perturbations in the instability of monochromatic gravity waves
- The effect of prandtl number on the evolution and stability of Kelvin—Helmholtz billows
- Nonlinear stability of a stratified shear flow: a viscous critical layer
- The evolution of a quasi-steady critical layer in a stratified viscous shear layer
- Vorticity dynamics in a breaking internal gravity wave. Part 1. Initial instability evolution
- Vorticity dynamics in a breaking internal gravity wave. Part 2. Vortex interactions and transition to turbulence
- On the characteristics of vortex filaments in isotropic turbulence
- The initial value problem for Kelvin vortex waves
- Secondary Kelvin–Helmholtz instability in weakly stratified shear flow
- Turbulent Flows
- DIRECT NUMERICAL SIMULATION: A Tool in Turbulence Research
- On the identification of a vortex
- Multi-scale dynamics of Kelvin–Helmholtz instabilities. Part 2. Energy dissipation rates, evolutions and statistics
- Large-scale characteristics of a stably stratified turbulent shear layer
- Hairpin vortices and highly elongated flow structures in a stably stratified shear layer
- Evolution of an initially turbulent stratified shear layer
- Spectral Calculations of Isotropic Turbulence: Efficient Removal of Aliasing Interactions
- The instability of a vortex tube in a weak external shear and strain
- The effects of Prandtl number on the nonlinear dynamics of Kelvin–Helmholtz instability in two dimensions
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