Personal information
Biography
Research Interests:
1. Analytical, computational, and data-enable approaches to problems in the intersection of optics, acoustics and nanophysics: optoacoustics of gold nanoparticles, nanodroplets and microbubble with applications in medicine and energy efficiency
2. Design, analysis and implementation of novel numerical methods focusing on robustness in extreme scenarios, efficiency (both in serial and parallel computations), stability, accuracy and simplicity for multi-phase flows with phase change, wave-dominated flows and turbulence with applications in renewable energy, inertial confinement fusion, deflagration to detonation, ejector-based cooling, cryocoolers, cryogenics and medicine
3. Computational and statistical approach to oceanic rogue waves
4. Applications of computation and modeling to the emerging field of neuromorphic computing
Courses Developed and Taught at Brown University:
1. Numerical Ordinary Differential Equations, Undergraduate Short Course, Division of Applied Mathematics, Brown University, July 2010 (20 students)
2. High-Performance Discontinuous Galerkin Solvers, Graduate course, Division of Applied Mathematics, Brown University, Winter 2010, 8 students
Courses Taught (some Developed) at South Dakota School of Mines and Technology:
1. Thermodynamics I
2. Thermodynamics II
3. Fluid Dynamics
4. Heat Transfer
5. Gas Dynamics
6. Computations in Transport Phenomena
7. Transport Phenomena: Momentum
8. Transport Phenomena: Heat
10. Thermoacoustics
11. High-Order Methods for Compressible Flows