Publications

Selected Publications 2016-Present

2021

  • E.T. Meier and U. Shumlak, Development of five-moment two-fluid modeling for Z-pinch physics. Physics of Plasmas 28, 092512 (2021). https://doi.org/10.1063/5.0058420 
  • I.A.M. Datta, D.W. Crews, and U. Shumlak, Electromagnetic extension of the Dory-Guest-Harris instability as a benchmark for Vlasov-Maxwell continuum kinetic simulations of magnetized plasmas. Physics of Plasmas 28, 072112 (2021). https://doi.org/10.1063/5.0057230 

2020

  • U. Shumlak, Z-pinch fusion. Journal of Applied Physics 127, 200901 (2020). https://doi.org/10.1063/5.0004228 
  • G.V. Vogman, J.H. Hammer, U. Shumlak, and W.A. Farmer. Two-fluid and kinetic transport physics of Kelvin–Helmholtz instabilities in nonuniform low-beta plasmas. Physics of Plasmas 27, 102109 (2020). https://doi.org/10.1063/5.0014489 

2019

  • K. Tummel, D. P. Higginson, A. J. Link, A. E. W. Schmidt, D. T. Offermann, D. R. Welch, R. E. Clark, U. Shumlak, B. A. Nelson, R. P. Golingo, and H. S. McLean. Kinetic simulations of sheared flow stabilization in high-temperature Z-pinch plasmas. Physics of Plasmas 26, 062506 (2019). https://doi.org/10.1063/1.5092241

2018

  • A. Ho, I.A.M. Datta, and U. Shumlak. Physics-Based-Adaptive Plasma Model for High-Fidelity Numerical Simulations. Frontiers in Physics 6, 105 (2018). https://www.frontiersin.org/article/10.3389/fphy.2018.00105
  • G.V. Vogman, U. Shumlak, and P. Colella. Conservative fourth-order finite-volume Vlasov-Poisson solver for axisymmetric plasmas in cylindrical (r, vr, vθ) phase space coordinates. Journal of Computational Physics 373, 877 (2018). https://doi.org/10.1016/j.jcp.2018.07.029
  • D.W. Crews, “Development of a Collisionless Plasma Kinetic Solver and an Investigation of One-Dimensional Plasma Waves and Instabilities” MS Thesis
  • W.R. Thomas, “Development and validation of computational tools for the characterization and analysis of non-linear plasma photonic crystals” MS Thesis

2017

  • G.V. Vogman, U. Shumlak, and P. Colella. Conservative fourth-order finite-volume Vlasov-Poisson solver for axisymmetric plasmas in cylindrical (r, vr, vθ) phase space coordinates. Journal of Computational Physics 373, 877 (2018). https://doi.org/10.1016/j.jcp.2018.07.029
  • U. Shumlak, B. A. Nelson, E. L. Claveau, E. G. Forbes, R. P. Golingo, M. C. Hughes, R. J. Oberto, M. P. Ross, and T. R. Weber. Increasing plasma parameters using sheared flow stabilization of a Z-pinch. Physics of Plasmas 24, 055702 (2017). https://doi.org/10.1063/1.4977468 

2016

  • S.T. Miller and U. Shumlak. A multi-species 13-moment model for moderately collisional plasmas. Physics of Plasmas 23, 082303 (2016). https://doi.org/10.1063/1.4960041
  • E.M. Sousa and U. Shumlak. A blended continuous–discontinuous finite element method for solving the multi-fluid plasma model. Journal of Computational Physics 326, 56 (2016). https://doi.org/10.1016/j.jcp.2016.08.044 
  • S. Miller, “Modeling collisional processes in plasmas using discontinuous numerical methods” PhD Dissertation
  • N. Reddell, “A Kinetic Vlasov Model for Plasma Simulation Using Discontinuous Galerkin Method on Many-Core Architectures” PhD Dissertation
  • A. Fedoseyev, E.J. Kansa, S. Tsynkov, S. Petropavlovskiy, M. Osintcev, U. Shumlak, and W. D. Henshaw. A universal framework for non-deteriorating time-domain numerical algorithms in Maxwell’s electrodynamics. AIP Conference Proceedings 1773, 020001 (2016). https://doi.org/10.1063/1.4964955 

 

Publications Archive

2015

  • E.M. Sousa, G. Lin, and U. Shumlak. Uncertainty quantification of the GEM challenge magnetic reconnection problem using the multilevel Monte Carlo method. International Journal for Uncertainty Quantification 5 (4), 327 (2015). Article
  • G.V. Vogman, P. Colella, and U. Shumlak. “High-order continuum Vlasov-Maxwell simulations of collisionless plasmas,” Fifty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Savannah, Georgia, November 2015.
  • A. Ho, U. Shumlak, and S.T. Miller. “Multi-fluid plasma modeling with Braginskii collisional transport processes,” Fifty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Savannah, Georgia, November 2015.
  • S.T. Miller and U. Shumlak. “Capturing marginally collisional effects with the 13N-moment plasma model,” Fifty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Savannah, Georgia, November 2015.
  • U. Shumlak. “High Fidelity Physics using the Multi-Fluid Plasma Model,” 10th Annual International Conference on Numerical Modeling of Space Plasma Flows, Avignon, France, June 2015.
  • U. Shumlak, A. Ho, S. Miller, N. Reddell, and E. Sousa. “Multi-fluid plasma modeling through the collisional transition regime,” Frontiers in Computational Physics: Energy Science, Zurich, Switzerland, June 2015.
  • U. Shumlak, A. Ho, S. Miller, N. Reddell, and E. Sousa. “Multi-fluid plasma modeling through the collisional transition regime,” SIAM Conference on Computational Science and Engineering (CSE15), Salt Lake City, Utah, March 2015.

2014

  • G.V. Vogman, P. Colella, and U. Shumlak. Dory-Guest-Harris instability as a benchmark for continuum kinetic Vlasov-Poisson simulations of magnetized plasmas. Journal of Computational Physics 277, 101 (2014). Article
  • S. Miller and U. Shumlak. “Capturing marginally collisional effects with the 13N-moment plasma model,” Fifty-Sixth Annual American Physical Society Meeting of the Division of Plasma Physics, New Orleans, Louisiana, November 2014.
  • N. Reddell and U. Shumlak. “Continuum kinetic plasma modeling by the Vlasov-Maxwell system in multiple dimensions,” Fifty-Sixth Annual American Physical Society Meeting of the Division of Plasma Physics, New Orleans, Louisiana, November 2014.
  • G.V. Vogman, P. Colella, and U. Shumlak. “High-order continuum kinetic Vlasov-Poisson simulations of magnetized plasmas,” Fifty-Sixth Annual American Physical Society Meeting of the Division of Plasma Physics, New Orleans, Louisiana, November 2014.
  • B.A. Nelson, C. Akcay, A.H. Glasser, C.J. Hansen, T.R. Jarboe, G.J. Marklin, R.D. Milroy, K.D. Morgan, P.C. Norgaard, U. Shumlak, D.A. Sutherland, B.S. Victor, C.R. Sovinec, J.B. O’Bryan, E.D. Held, J.-Y. Ji, and V.S. Lukin. “PSI-Center Validation Studies,” Fifty-Sixth Annual American Physical Society Meeting of the Division of Plasma Physics, New Orleans, Louisiana, November 2014.
  • E.M. Sousa, “A Blended Finite Element Method for Multi-Fluid Plasma Modeling” PhD Dissertation

2013

  • E. Kansa, U. Shumlak, and S. Tsynkov. Discrete Calderon’s Projections on Parallelepipeds and their Application to Computing Exterior Magnetic Fields for FRC Plasmas. Journal of Computational Physics 234, 172 (2013). Article
  • U. Shumlak, R. Lilly, S. Miller, N. Reddell, and E. Sousa. “Blended high-order finite element methods for plasma modeling,” Fortieth European Physical Society Conference on Plasma Physics, Helsinki, Finland, July 2013. Article
  • U. Shumlak, R. Lilly, S. Miller, N. Reddell, and E. Sousa. “High-order finite element method for plasma modeling,” IEEE Pulsed Power and Plasma Science Conference (PPPS 2013), San Francisco, California, June 2013. Article
  • S. Miller and U. Shumlak. “Validity and Numerical Implementation of the 13 Moment Multi-Fluid Plasma Model,” Fifty-Fifth Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2013.
  • N. Reddell and U. Shumlak. “Advanced kinetic plasma model implementation for new large-scale investigations,” Fifty-Fifth Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2013.
  • E. Sousa and U. Shumlak. “Blended Finite Element Method for Multi-Fluid Plasma Modeling,” Fifty-Fifth Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2013.
  • P.C. Norgaard and U. Shumlak. “Reacting Plasma-Neutral Fluid Simulations using the NIMROD Finite Element Code,” Fifty-Fifth Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2013.
  • B.A. Nelson, C. Akcay, A.H. Glasser, C.J. Hansen, T.R. Jarboe, G.J. Marklin, R.D. Milroy, K.D. Morgan, P.C. Norgaard, U. Shumlak, B.S. Victor, C.R. Sovinec, J.B. O’Bryan, E.D. Held, J.-Y. Ji, and V.S. Lukin. “PSI-Center Simulations of Validation Platform Experiments,” Fifty-Fifth Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2013.
  • U. Shumlak. “Plasma Simulations using Continuum Models: Challenges for Computational Physics,” NSF Workshop on High Performance Computational Science with Structured Meshes and Particles (HPCS-SMP), Lawrence Berkeley National Laboratory, Denver, Colorado, November 2013.
  • U. Shumlak. “WARPX, its capabilities, and combined implementation with lacunae,” Department Seminar, North Carolina State University, Raleigh, North Carolina, October 2013.

2012

  • E.T. Meier and U. Shumlak. A general nonlinear fluid model for reacting plasma-neutral mixtures. Physics of Plasmas 19 (7), 072508 (2012). Article
  • E.T. Meier, A.H. Glasser, V.S. Lukin, and U. Shumlak, “Modeling open boundaries in dissipative MHD simulation,” Journal of Computational Physics 231 (7), 2963 (2012). Article
  • U. Shumlak, R. Lilly, S. Miller, N. Reddell, and E. Sousa, “High-Order Computational Method Applied to the Multi-Fluid Plasma Model,” Thirty-Ninth Annual IEEE International Conference on Plasma Sciences, Edinburgh, Scotland, July 2012.
  • U. Shumlak, “The Multi-Fluid Plasma Model: Derivation, Context, and Computational Solution,” Institute for Pure and Applied Mathematics, Computational Methods in High Energy Density Plasmas, University of California (UCLA), Los Angeles, California, May 2012.
  • P. Norgaard and U. Shumlak. “Implementing a reacting plasma-neutral model in the NIMROD finite element code,” Fifty-Fourth Annual American Physical Society Meeting of the Division of Plasma Physics, Providence, Rhode Island, November 2012.
  • N. Reddell and U. Shumlak. “WARPM Framework for advanced plasma model simulations on many-core architectures,” Fifty-Fourth Annual American Physical Society Meeting of the Division of Plasma Physics, Providence, Rhode Island, November 2012.
  • E. Sousa and U. Shumlak. “Two-fluid plasma modeling using mixed finite element methods,” Fifty-Fourth Annual American Physical Society Meeting of the Division of Plasma Physics, Providence, Rhode Island, November 2012.
  • R. Lilly and U. Shumlak. “Multidimensional Plasma Sheath Modeling Using The Three Fluid Plasma Model in General Geometries,” Fifty-Fourth Annual American Physical Society Meeting of the Division of Plasma Physics, Providence, Rhode Island, November 2012.
  • B.A. Nelson, C. Akcay, A.H. Glasser, C.J. Hansen, T.R. Jarboe, C.C. Kim, G.J. Marklin, R.D. Milroy, U. Shumlak, C.R. Sovinec, J.B. O’Bryan, E. Held, J.-Y. Ji, and V.S. Lukin. “Simulations of Validation Platform Experiments by the PSI-Center,” Fifty-Fourth Annual American Physical Society Meeting of the Division of Plasma Physics, Providence, Rhode Island, November 2012.
  • W. Lowrie, “Development and Application of a Multi-Block High Order Finite Element Modeling Code as an Engineering Design Tool” PhD Dissertation

2011

  • U. Shumlak, R. Lilly, N. Reddell, E. Sousa, and B. Srinivasan, “Advanced physics calculations using a multi-fluid plasma model,” Computer Physics Communications 182, 1767 (2011).
  • Article
  • B. Srinivasan and U. Shumlak, “Analytical and computational study of the ideal full two-fluid plasma model and asymptotic approximations for Hall-MHD,” Physics of Plasmas 18 (9), 092113 (2011).
  • Article
  • J. Loverich, A. Hakim, and U. Shumlak, “A discontinuous Galerkin method for ideal two-fluid plasma equations,” Communications in Computational Physics 9, 240 (2011).
  • Article
  • W. Lowrie, V.S. Lukin, and U. Shumlak, “A priori mesh quality metric error analysis applied to a high-order finite element method,” Journal of Computational Physics 230 (14), 5564 (2011).
  • Article
  • B. Srinivasan, A. Hakim, and U. Shumlak, “Numerical methods for two-fluid dispersive fast MHD phenomena,” Communications in Computational Physics 10, 183 (2011).
  • Article
  • U. Shumlak, R. Lilly, N. Reddell, E. Sousa, B. Srinivasan, “Discontinuous Galerkin method applied to the multi-fluid plasma,” SIAM Conference on Computational Science and Engineering (CSE11), Reno, Nevada, March 2011.
  • U. Shumlak, R. Lilly, N. Reddell, E. Sousa, and B. Srinivasan. “Discontinuous Galerkin method applied to the multi-fluid plasma,” SIAM International Congress on Industrial and Applied Mathematics (ICIAM2011), Vancouver, BC, Canada, July 2011.
  • Eric Meier, Alan Glasser, Vyacheslav Lukin, and Uri Shumlak, “Open boundary conditions for dissipative MHD,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • Robert Lilly and Uri Shumlak, “Multidimensional Plasma Sheath Modeling Using The Three Fluid Plasma Model,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • Eder Sousa, Uri Shumlak, and Guang Lin, “Lacuna-based Artificial Boundary Condition And Uncertainty Quantification of the Two-Fluid Plasma Model,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • W. Lowrie, U. Shumlak, A.H. Glasser, and V.S. Lukin, “Multi-Block Development and Application to a Shear Flow Z-Pinch Kink Mode Stabilization,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • Brian A. Nelson, A.H. Glasser, T.R. Jarboe, C.C. Kim, G.J. Marklin, W. Lowrie, E.T. Meier, R.D. Milroy, U. Shumlak, C.R. Sovinec, J.B. O’Bryan, E. Held, J.-Y. Ji, and V.S. Lukin, “Simulations of ICC Experiments by the PSI-Center,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • Noah Reddell, Uri Shumlak, and Guoyong Fu, “Framework for advanced plasma simulations on many-core architectures and results,” Fifty-Third Annual American Physical Society Meeting of the Division of Plasma Physics, Salt Lake City, Utah, November 2011.
  • S. Gilliam, “A 13-Moment Two-Fluid Plasma Physics Model Based on a Pearson Type-IV Distribution Function” MS Thesis
  • E. Meier, “Modeling Plasmas with Strong Anisotropy, Neutral Fluid Effects, and Open Boundaries” PhD Dissertation

2010

  • E. T. Meier, V. S. Lukin, and U. Shumlak, “Spectral element spatial discretization error in solving highly anisotropic heat conduction equation,” Computer Physics Communications 181, 837 (2010). Article
  • N. Reddell, R. Lilly, U. Shumlak, E. Sousa, and B. Srinivasan, “Computational Algorithm for the Multi-Fluid Plasma Model – WARPX,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • R. Lilly and U. Shumlak, “Plasma Sheath Modeling Using The Three Fluid Plasma Model,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • E.T. Meier, A.H. Glasser, V.S. Lukin, and U. Shumlak, “Lacunae-based open boundary conditions for dissipative MHD,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • W. Lowrie, U. Shumlak, V.S. Lukin, and A.H. Glasser, “Multi-Block Development and Applications of HiFi,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • B.A. Nelson, A.H. Glasser, T.R. Jarboe, C.C. Kim, G.J. Marklin, W. Lowrie, E.T. Meier, R.D. Milroy, U. Shumlak, C.R. Sovinec, J.B. O’Bryan, E. Held, J.-Y. Ji, and V.S. Lukin, “Recent Results of ICC Experiment Simulations by the PSI-Center,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • B. Srinivasan, G.L. Delzanno, X. Tang, and U. Shumlak, “Applications of the Two-Fluid Plasma Model to Simulate Instabilities with and without Background Magnetic Fields,” Fifty-Second Annual American Physical Society Meeting of the Division of Plasma Physics, Chicago, Illinois, November 2010.
  • U. Shumlak, R. Lilly, E. Meier, N. Reddell, E. Sousa, and B. Srinivasan, “Advanced Physics Calculations using a Multi-Fluid Plasma Model,” Conference on Computational Physics, Trondheim, Norway, June 2010.
  • B. Srinivasan, “Numerical Methods for 3-dimensional Magnetic Confinement Configurations using Two-Fluid Plasma Equations” PhD Dissertation

2009

  • B. Srinivasan and U. Shumlak, “A Study of 3-Dimensional Plasma Configurations using the Two-Fluid Plasma Model,” Thirty-Sixth IEEE International Conference on Plasma Science, San Diego, California, June 2009.

  • B. Srinivasan and U. Shumlak, “Implicit Time-Integration Schemes for Finite Element Two-Fluid Code,” Fifty-First Annual American Physical Society Meeting of the Division of Plasma Physics, Atlanta, Georgia, November 2009.

  • A. Susanto, “Development of Electromagnetic Solvers for Use with the Two-Fluid Plasma Algorithm” MS Thesis

2008

  • B. Srinivasan, U. Shumlak, and A. Hakim, “Comparison and Applications of Two-Fluid Plasma Algorithms,” Thirty Ninth American Institute of Aeronautics & Astronautics Plasmadynamics and Lasers Conference, Seattle, Washington, June 2008. AIAA2008-3787
  • B. Srinivasan and U. Shumlak, “Comparison of Two-Fluid Plasma Models,” High Performance Computing Users Group Conference, Seattle, Washington, July 2008. Article
  • B. Srinivasan and U. Shumlak, “A Comparison between the Two-Fluid Plasma Model and Hall-MHD for Captured Physics and Computational Effort,” Fiftieth Annual American Physical Society Meeting of the Division of Plasma Physics, Dallas, Texas, November 2008.

2007

  • A. Hakim and U. Shumlak, “Two-Fluid Physics and Field-Reversed Configurations,” Physics of Plasmas 14, 055911 (2007). Article
  • B. Srinivasan and U. Shumlak, “Applying Asymptotic Approximations to the Full Two-Fluid Plasma System to Study Reduced Fluid Models,” Thirty-Fourth Annual IEEE International Conference on Plasma Sciences, Albuquerque, New Mexico, June 2007.
  • B. Srinivasan and U. Shumlak, “Comparing Reduced Fluid Models to the Full Two-Fluid Plasma System,” Forty-Ninth Annual American Physical Society Meeting of the Division of Plasma Physics, Orlando, Florida, November 2007.

2006

  • J. Loverich and U. Shumlak, “Non-Linear Two-Fluid Study of m=0 Sausage Instabilities in an Axisymmetric Z-Pinch,” Physics of Plasmas 13, 082310 (2006). Article
  • A. Hakim, J. Loverich, and U. Shumlak, “High Resolution Wave Propagation Scheme for Ideal Two-Fluid Plasma Equations,” Journal of Computational Physics 219 (1), 418-442 (2006). Article
  • A. Hakim, “High Resolution Wave Propagation Schemes for Two-Fluid Plasma Simulations” PhD Dissertation
  • R. C. Lilly, “Study on the Flow-Through Z-Pinch Fusion Concept” MS Thesis

2005

  • J. Loverich and U. Shumlak, “A Discontinuous Galerkin Method for the Full Two-Fluid Plasma Model,” Computer Physics Communications 169 (3), 251 (2005). Article
  • J. Loverich and U. Shumlak, “The Discontinuous Galerkin Method for Simulation of Plasma Dynamics: The Full Two-Fluid System,” Forty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2005.
  • A. Hakim and U. Shumlak, “A High Resolution Wave Propagation Scheme for Two-Fluid Plasma Equations with applications to Field Reversed Configurations,” Forty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2005.
  • S. Vadlamani, G. Marklin, U. Shumlak, T. Jarboe, and R. Lionello, “Development of MH4D for Simulation of Emerging Concept Fusion Experiments,” Forty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2005.
  • T.R. Jarboe, C.C. Kim, G. Marklin, A.I.D. Macnab, R.D. Milroy, B.A. Nelson, U. Shumlak, S. Vadlamani, S. Woodruff, R.A. Bayliss, C.R. Sovinec, E. Held, and J-Y. Ji, “Overview of The Plasma Science and Innovation Center (PSI-Center),” Forty-Seventh Annual American Physical Society Meeting of the Division of Plasma Physics, Denver, Colorado, November 2005.
  • J. Loverich, “A Discontinuous Galerkin Method for the Two-Fluid Plasma System and Its Application to the Z-Pinch” PhD Dissertation
  • B. Srinivasan, “A Comparison between the Discontinuous Galerkin Algorithm and the High Resolution Wave Propagation Algorithm for the Full Two-Fluid Plasma Model” MS Thesis

2004

  • U. Shumlak, C. Aberle, A. Hakim, and J. Loverich, “Plasma Simulation Algorithm for the Two-Fluid Plasma Model,” European Physical Society /American Physical Society Conference on Computational Physics, Division of Computational Physics, Genoa, Italy, September 2004.
  • J. J. Loverich and U. Shumlak, “A Discontinuous Galerkin Method for the Full Two-Fluid Plasma Model,” European Physical Society /American Physical Society Conference on Computational Physics, Division of Computational Physics, Genoa, Italy, September 2004.
  • A. Hakim, U. Shumlak, and J. Loverich, “A High Resolution Scheme for Multi-Dimensional Two-Fluid Plasma Equations,” Forty-Sixth Annual American Physical Society Meeting of the Division of Plasma Physics, Savannah, Georgia, November 2004.
  • C. Aberle, “Algorithm for Solving Colocated Electromagnetic Fields with Sources” MS Thesis

2003

  • U. Shumlak and J. Loverich, “Approximate Riemann Solver for the Two-Fluid Plasma Model,” Journal of Computational Physics 187 (2), 620 (2003). Article
  • J. Loverich, U. Shumlak, C. Aberle, and A. Hakim, “A Finite Volume Algorithm for the Two-Fluid Plasma System,” Sixteenth American Institute of Aeronautics & Astronautics Computational Fluid Dynamics Conference, Orlando, Florida, June 2003. AIAA2003-4238
  • A. Hakim, U. Shumlak, C. Aberle, and J. Loverich, “Maxwell Equation Solver for Plasma Simulations Based on a Mixed Potential Formulation,” Sixteenth American Institute of Aeronautics & Astronautics Computational Fluid Dynamics Conference, Orlando, Florida, June 2003. AIAA2003-3829
  • J. Loverich, “A Finite Volume Algorithm for the Two-fluid Plasma System in One Dimension” MS Thesis

2002

  • J. J. Loverich and U. Shumlak, “A Finite Volume Scheme for the Two-Fluid Plasma System,” Twenty-Ninth Annual IEEE International Conference on Plasma Sciences, Banff, Alberta, Canada, May 2002.
  • U. Shumlak, C. S. Aberle, A. Hakim, and J. J. Loverich, “Plasma Simulation Algorithm for the Two-Fluid Plasma Model,” American Physical Society Meeting of the Division of Computational Physics, San Diego, California, August 2002.
  • C. S. Aberle, A. Hakim, and U. Shumlak, “Development of a Maxwell Equation Solver for Application to Two-Fluid Plasma Models,” American Physical Society Meeting of the Division of Computational Physics, San Diego, California, August 2002.

2001

  • U. Shumlak and B. Udrea, “An Approximate Riemann Solver for MHD Computations on Parallel Architectures,” Fifteenth American Institute of Aeronautics & Astronautics Computational Fluid Dynamics Conference, Anaheim, California, June 2001. AIAA2001-2591
  • C. Aberle and U. Shumlak, “Application of Analytical Methods to Computing Numerical Flux Jacobians,” Fifteenth American Institute of Aeronautics & Astronautics Computational Fluid Dynamics Conference, Anaheim, California, June 2001. AIAA2001-2610

2000

  • W. Vuillemot, U. Shumlak, “Multi-Temperature, Thermal & Ion Fraction Effects over Wedge and Bluff Body Shapes in Hypervelocity Flow” Twenty-Seventh Annual IEEE International Conference on Plasma Sciences, June 2000.

1999

  • W.W. Vuillemot and U. Shumlak, “Plasma Effects on Hypersonic Flows,” Forty-First Annual American Physical Society Meeting of the Division of Plasma Physics, Seattle, Washington, November 1999.
  • B. Udrea, “An Advanced Implicit Solver for MHD” PhD Dissertation

1998

  • J.T. Becerra Sagredo, “Semi-implicit Treatment of the Hall Term in Finite Volume, MHD Computations” MS Thesis

1997

  • O.S. Jones, “Study of Magnetic Relaxation in Plasmas Using a Parallel Implicit MHD Solver” PhD Dissertation