University of Cambridge > > Isaac Newton Institute Seminar Series > A network of invariant solutions underlying spatio-temporal patterns in inclined layer convection

A network of invariant solutions underlying spatio-temporal patterns in inclined layer convection

Add to your list(s) Download to your calendar using vCal

If you have a question about this talk, please contact nobody.

TURW04 - Wall-bounded turbulence: beyond current boundaries

Thermal convection in a fluid between two horizontal plates, a lower hot plate and an upper cold plate, exhibits chaotic dynamics and turbulence. If such a convection cell is inclined against gravity, buoyancy forces drive hot and cold fluid up and down the incline leading to a shear flow in the base state and the emergence of complex dynamics and spatio-temporal patterns.We study the dynamics of inclined layer convection (ILC) using a fully nonlinear dynamical systems approach based on a state space analysis of the governing equations. Exploiting the computational power of highly parallelized numerical continuation tools based on matrix-free Newton methods, we compute a collection of invariant solutions of ILC and discuss their bifurcation structure. Specifically, fixed points, travelling waves, periodic orbits and heteroclinic orbits will be shown. At intermediate angles of inclination, we demonstrate how a simple network of invariant solutions guides moderately complex dynamics. The complexity of the dynamics increases with the intensity of the basic shear flow. At high inclination angles, localized patches of weakly turbulent convection within a background of straight longitudinal convection rolls are observed. We present exact invariant solutions capturing both the dynamics and the spatial localization of these so-called transverse bursts. 

This talk is part of the Isaac Newton Institute Seminar Series series.

Tell a friend about this talk:

This talk is included in these lists:

Note that ex-directory lists are not shown.


© 2006-2024, University of Cambridge. Contact Us | Help and Documentation | Privacy and Publicity