IMSc Webinar
Exploring Turbulence using Exact Coherent States
Balachandra Suri
Institute of Science \& Technology (IST), Austria
Google meet link: meet.google.com/ket-hiwr-wym
Turbulence is widely regarded as the last unsolved problem of classical physics. Despite the availability of well-defined governing equations, a tractable framework that predicts the dynamical and statistical properties of turbulence has eluded scientists. In this talk, we discuss how unstable nonchaotic solutions of the Navier-Stokes equation, called Exact Coherent States (ECS), may prove pivotal in developing such a framework. Specifically, we focus on moderately turbulent (quasi-two-dimensional) flows, which are characterized by the fleeting appearance of well-discernible flow patterns called coherent structures. We show that the appearance of coherent structures is related to the dynamical significance of ECS, such as equilibrium or time-periodic flows. Using these special solutions, we then construct a low-dimensional model for flow evolution and forecast turbulence for a short duration. Analyzing their statistical significance, we also show that frequently appearing ECS capture statistical averages (e.g., rate of energy dissipation) of turbulent flows accurately. Finally, we discuss how a network of dynamical connections between ECSs constrains long-term flow dynamics and provides a tractable deterministic picture of turbulence.
Done