Modern techniques in mathematical analysis

Computational and experimental contributions that illuminate theoretical aspects of fluid mechanics

Application of dynamical systems theory to fluid mechanics

Reduced-order modeling in fluid mechanics

Asymptotic methods in fluid mechanics

Flow control, including PID, LQG/H MPC, and Lyapunov-based approaches

Flowfield estimation/forecasting and adaptive observation, including Wiener, Kalman, Ensemble, Variational, and Hybrid approaches

Theoretical aerodynamics

Aerodynamic shape optimization

General stability, including local, global, and transient growth analysis

Instabilities of wall bounded and free shear flows

Richtmyer-Meshkov and Rayleigh-Taylor instabilities

Waves

Separated flows

Boundary-layers

Jets, wakes, and shear layers

Unsteady flows

Turbulence, including RANS, LES, DNS, and coherent structures

Vortex dynamics and rotating flows

Shock/boundary-layer interaction

Transonic, supersonic, and hypersonic flows

Rarefied gas dynamics

Molecular hydrodynamics and simulations

Reacting flows

Fluid-structure interactions

Multiphase flows

Micro/nano-scale fluid mechanics

Bio-fluid mechanics

Geophysical fluid mechanics

Fluid dynamics of wind energy