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The interaction of waves and turbulence is a topic of fundamental importance in geophysical and astrophysical fluid dynamics, where wave dynamics result from density stratification, rotation, magnetism, and compressibility.
The interactions of wave dynamics with turbulence can have significant implications, transferring energy over long distances or across scales, and impacting the formation and evolution of Lagrangian Coherent Structures (LCS) that is the term widely employed to refer to key material surfaces that shape global mixing patterns in temporally-aperiodic flows defined over a finite-time interval.
System (2.10) in my book brings together researchers to present recent results in wave-turbulence interaction in both geophysical and astrophysical settings.
It also describes a model for estimating the wave generation by convection based on Pedlosky's theory, and compare the model to high-resolution simulations using the DStool / VFtool code.
The author attended Clark University where he earned his Bachelor of Arts (BA), Summa Cum Laude, Phi Beta Kappa, with Highest Honors in Mathematics.
He received his Master of Science (MSc), Magna Cum Laude, Sigma Xi from Brown University in Applied Mathematics and Engineering.
He was conferred his PhD Degree from the University of Cape Town.
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