Understanding recent standards (Fortran 2008) of Fortran programming language (including C-interoperability and parallelism) for scientific and engineering computations.
For undergraduate students in science or engineering major.
Understanding and application of mathematical and numerical methods in processing atmospheric observational and modeling data or in formulating numerical model
For graduate students in atmospheric science major.
Introduction to dynamical and chemical processes that determine the mean states and perturbations of wind, temperature, and plasma density in the upper stratosphere, mesosphere, thermosphere, and ionosphere. Understanding of physical processes required for whole atmosphere global modeling and potential impacts of the solar and upper atmospheric processes in near-surface climate.
For graduate students in atmospheric science, space science or other disciplines.
Advanced class to understand dynamics of interaction between localized wave packets and large-scale flow, wave-induced Lagrangian transport, and wave-vortex duality
For graduate students who are interested in atmospheric and oceanic waves and mass (constituent) transport due to those waves.
