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Ph.D. Student | University | Year | Dissertation Title |
| I-Chung Chang | NYU | 1981 | Unsteady transonic flow past airfoils in rigid body motion |
| Brian McCartin | NYU | 1982 | Theory, computation and application of exponential splines |
| Richard Pelz | Princeton | 1983 | Transonic flow calculations using triangular finite elements |
| John Fay | Princeton | 1985 | On the design of airfoils in transonic flow using the Euler equations |
| Seokkwan Yoon | Princeton | 1985 | Numerical solution of the Euler equations by implicit schemes with multiple grids |
| Craig Streett | Princeton | 1987 | A spectral method for the solution of transonic potential flow about an arbitrary two-dimensional airfoil |
| Dimitri Mavriplis | Princeton | 1987 | Solution of the two dimensional Euler equations on unstructured triangular meshes |
| Venkat Venkatakrishnan | Princeton | 1987 | Computation of unsteady transonic flows over moving airfoils |
| Luigi Martinelli | Princeton | 1987 | Calculations of viscous flows with a multigrid method |
| Mohan Jayaram | Princeton | 1987 | Solution of the three-dimensional Navier-Stokes equations for transonic flow using a multigrid method |
| Takeshi Sakata | Princeton | 1990 | Solution of the Euler equations in multibody flow fields using the overlapping-mesh method |
| Mark Stewart | Princeton | 1990 | Non-overlapping composite meshes for multi-element airfoils |
| Feng Liu | Princeton | 1991 | Numerical calculation of turbomachinery cascade flows |
| Todd Mitty | Princeton | 1993 | Development of a Delaunay-based adaption scheme with applications to complex three-dimensional rotational flows |
| James Farmer | Princeton | 1993 | A finite volume multigrid solution to the three dimensional nonlinear ship wave problem |
| James Reuther | UC Davis | 1996 | Aerodynamic shape optimization using control theory |
| Juan Alonso | Princeton | 1997 | Parallel computation of unsteady and aeroelastic flows using an implicit multigrid-driven algorithm |
| Andrey Belov | Princeton | 1997 | A new implicit multigrid-driven algorithm for unsteady incompressible flow calculations on parallel computers |
| Chongam Kim | Princeton | 1997 | Robust and accurate numerical methods for high speed unsteady flows |
| Scott Sheffer | Princeton | 1997 | Parallel computation of supersonic reactive flows with detailed chemistry including viscous and species diffusion effects |
| Biing-Horng Liou | Princeton | 1998 | Calculation of nonlinear free surface wave with a fully implicit multigrid method |
| Paul Lin | Princeton | 2001 | Two-dimensional implicit time dependent caculations for incompressible flows on adaptive unstructured meshes |
| Yee Feng Ruan | Stanford | 2002 | Shock capturing schemes with gas-kinetic methods |
| Sriram Shankaran | Stanford | 2003 | Numerical analysis and design of upwind sails |
| Siva Nadarajah | Stanford | 2003 | The discrete adjoint approach to aerodynamic shape optimization |
| Matthew McMullen | Stanford | 2003 | The application of non-linear frequency domain methods to the Euler and Navier-Stokes equations |
| John Hsu | Stanford | 2005 | An implicit-explicit flow solver for complex unsteady flows |
| Kasidit Leoviriyakit | Stanford | 2005 | Wing planform optimization via an adjoint method |
| Balaji Srinivasan | Stanford | 2006 | The BGK and LRS schemes for computing Euler and Navier Stokes flows |
| Georg May | Stanford | 2006 | A kinetic scheme for the Navier-Stokes equations and high-order methods for hyperbolic conservation laws |
| Arathi Gopinath | Stanford | 2007 | Efficient Fourier-based algorithms for the time-periodic unsteady problems |
| Karthik Palaniappan | Stanford | 2007 | Algorithms for automatic feedback control of aerodynamic flows |
| Nawee Butsuntorn | Stanford | 2008 | Time spectral method for rotorcraft flow with vorticity confinement |
| Aaron Katz | Stanford | 2009 | Meshless methods for computational fluid dynamics |
| Jen-Der Lee | Stanford | 2009 | NLF wing design by adjoint method and automatic transition prediction |
| Rui Hu | Stanford | 2009 | Supersonic biplane design via adjoint method |
| Sachin Premasuthan | Stanford | 2010 | Towards an efficient and robust high order accurate flow solver for viscous compressible flow |
| Sean Kamkar | Stanford | 2011 | Mesh adaption strategies for vortex-dominated flows |
| Kwan Yu Chiu | Stanford | 2011 | A conservative meshless framework for conservation laws with applications |
| Yves Allaneau | Stanford | 2012 | Energy conserving numerical methods for the computation of complex |
| Patrice Castonguay | Stanford | 2012 | High-order energy stable flux reconstruction schemes for fluid flow simulations on unstructured grids |
| Kui Ou | Stanford | 2012 | High-order methods for unsteady flows on unstructured dynamic meshes |
| Andre Chan | Stanford | 2012 | Control and suppression of laminar vortex shedding off two-dimensional bluff bodies |
| Yi Li | Stanford | 2013 | Automatic mesh adaptation using the continuous adjoint approach and the spectral difference method |
| Matthew Culbreth | Stanford | 2013 | High fidelity optimization of flapping airfoils and wings |
| David Williams | Stanford | 2013 | Energy stable high-order methods for simulating unsteady, viscous, compressible flows on unstructured grids |
| Joshua Leffell | Stanford | 2014 | An overset time-spectral method for relative motion |
| George Anderson | Stanford | 2015 | Shape optimization in adaptive search spaces |
| Manuel Lopez-Morales | Stanford | 2016 | Towards industry-ready high-order flow solvers: increasing robustness and usability |
| Kartikey Asthana | Stanford | 2016 | Analysis and design of optimal discontinuous finite element schemes |
| Abhishek Sheshadri | Stanford | 2016 | An analysis of stability of the flux reconstruction formulation with applications to shock capturing |
| Joshua Romero | Stanford | 2017 | On the development of the direct flux reconstruction scheme for high-order fluid flow simulations |
| Jerry Watkins | Stanford | 2017 | Numerical analysis and implicit time stepping for high-order, fluid flow simulations on GPU architectures |
| Jacob Crabill | Stanford | 2018 | Towards industry-ready high-order overset methods on modern hardware |
| David Manosalvas-Kjono | Stanford | 2018 | Aerodynamic design of active flow control systems aimed towards drag reduction in heavy vehicles |
| Jonathan Chiew | Stanford | 2020 | Rapid computational aerodynamic analysis for multi-rotor aircraft |
