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Qi Tang 0001
Person information
- affiliation: Los Alamos National Laboratory, NM, USA
- affiliation (former): Rensselaer Polytechnic Institute, Department of Mathematical Sciences, Troy, NY, USA
- affiliation (PhD 2016): Michigan State University, Department of Mathematics, East Lansing, MI, USA
Other persons with the same name
- Qi Tang — disambiguation page
- Qi Tang 0002
— National University of Defense Technology, Department of Electronic Science and Engineering, Changsha, China
- Qi Tang 0003
- Qi Tang 0004
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2020 – today
- 2024
- [j19]Matthew J. Picklo, Qi Tang
Denoising Particle-In-Cell data via Smoothness-Increasing Accuracy-Conserving filters with application to Bohm speed computation. J. Comput. Phys. 502: 112790 (2024) - [j18]Johann Rudi
Scalable implicit solvers with dynamic mesh adaptation for a relativistic drift-kinetic Fokker-Planck-Boltzmann model. J. Comput. Phys. 507: 112954 (2024) - [j17]Longfei Li
Numerical Methods for Fourth-Order PDEs on Overlapping Grids with Application to Kirchhoff-Love Plates. J. Sci. Comput. 98(2): 41 (2024) - [i10]Daniel A. Serino, Qi Tang
An adaptive Newton-based free-boundary Grad-Shafranov solver. CoRR abs/2407.03499 (2024) - 2023
- [j16]Alec J. Linot
Stabilized neural ordinary differential equations for long-time forecasting of dynamical systems. J. Comput. Phys. 474: 111838 (2023) - [i9]Zakariae Jorti, Qi Tang
A mimetic finite difference based quasi-static magnetohydrodynamic solver for force-free plasmas in tokamak disruptions. CoRR abs/2303.08337 (2023) - [i8]Johann Rudi
Scalable Implicit Solvers with Dynamic Mesh Adaptation for a Relativistic Drift-Kinetic Fokker-Planck-Boltzmann Model. CoRR abs/2303.17019 (2023) - [i7]Matthew J. Picklo, Qi Tang, Yanzeng Zhang, Jennifer K. Ryan, Xian-Zhu Tang:
Denoising Particle-In-Cell Data via Smoothness-Increasing Accuracy-Conserving Filters with Application to Bohm Speed Computation. CoRR abs/2308.12807 (2023) - 2022
- [j15]Qi Tang
An adaptive scalable fully implicit algorithm based on stabilized finite element for reduced visco-resistive MHD. J. Comput. Phys. 454: 110967 (2022) - [j14]Nathan A Garland
Efficient data acquisition and training of collisional-radiative model artificial neural network surrogates through adaptive parameter space sampling. Mach. Learn. Sci. Technol. 3(4): 45003 (2022) - [i6]Alec J. Linot, Joshua W. Burby, Qi Tang
Stabilized Neural Ordinary Differential Equations for Long-Time Forecasting of Dynamical Systems. CoRR abs/2203.15706 (2022) - [i5]Valentin Duruisseaux, Joshua W. Burby, Qi Tang:
Approximation of nearly-periodic symplectic maps via structure-preserving neural networks. CoRR abs/2210.05087 (2022) - 2021
- [j13]Shuang Liu
A Parallel Cut-Cell Algorithm for the Free-Boundary Grad-Shafranov Problem. SIAM J. Sci. Comput. 43(6): B1198-B1225 (2021) - [i4]Longfei Li, Hangjie Ji, Qi Tang:
Stable finite difference methods for Kirchhoff-Love plates on overlapping grids. CoRR abs/2105.05401 (2021) - [i3]Qi Tang, Luis Chacón, Tzanio V. Kolev, John N. Shadid, Xian-Zhu Tang:
An adaptive scalable fully implicit algorithm based on stabilized finite element for reduced visco-resistive MHD. CoRR abs/2106.00260 (2021) - 2020
- [j12]Zhichao Peng, Qi Tang
An Adaptive Discontinuous Petrov-Galerkin Method for the Grad-Shafranov Equation. SIAM J. Sci. Comput. 42(5): B1227-B1249 (2020) - [i2]Zhichao Peng, Qi Tang, Xian-Zhu Tang:
An adaptive discontinuous Petrov-Galerkin method for the Grad-Shafranov equation. CoRR abs/2001.04524 (2020) - [i1]Shuang Liu, Qi Tang, Xian-Zhu Tang:
A parallel cut-cell algorithm for the free-boundary Grad-Shafranov problem. CoRR abs/2012.06015 (2020)
2010 – 2019
- 2019
- [j11]Lin Fu
High-Order Low-Dissipation Targeted ENO Schemes for Ideal Magnetohydrodynamics. J. Sci. Comput. 80(1): 692-716 (2019) - 2018
- [j10]Jeffrey W. Banks
A stable partitioned FSI algorithm for rigid bodies and incompressible flow in three dimensions. J. Comput. Phys. 373: 455-492 (2018) - [j9]Andrew J. Christlieb, Xiao Feng, Yan Jiang, Qi Tang
A High-Order Finite Difference WENO Scheme for Ideal Magnetohydrodynamics on Curvilinear Meshes. SIAM J. Sci. Comput. 40(4): A2631-A2666 (2018) - 2017
- [j8]Jeffrey W. Banks
A stable partitioned FSI algorithm for rigid bodies and incompressible flow. Part I: Model problem analysis. J. Comput. Phys. 343: 432-468 (2017) - [j7]Jeffrey W. Banks
A stable partitioned FSI algorithm for rigid bodies and incompressible flow. Part II: General formulation. J. Comput. Phys. 343: 469-500 (2017) - 2016
- [j6]Zixuan Wang, Qi Tang
Sparse grid discontinuous Galerkin methods for high-dimensional elliptic equations. J. Comput. Phys. 314: 244-263 (2016) - [j5]Andrew J. Christlieb, Xiao Feng
A high-order positivity-preserving single-stage single-step method for the ideal magnetohydrodynamic equations. J. Comput. Phys. 316: 218-242 (2016) - [j4]David C. Seal, Qi Tang
An Explicit High-Order Single-Stage Single-Step Positivity-Preserving Finite Difference WENO Method for the Compressible Euler Equations. J. Sci. Comput. 68(1): 171-190 (2016) - 2015
- [j3]Andrew J. Christlieb, Yuan Liu, Qi Tang
High order parametrized maximum-principle-preserving and positivity-preserving WENO schemes on unstructured meshes. J. Comput. Phys. 281: 334-351 (2015) - [j2]Andrew J. Christlieb, Yuan Liu, Qi Tang
Positivity-Preserving Finite Difference Weighted ENO Schemes with Constrained Transport for Ideal Magnetohydrodynamic Equations. SIAM J. Sci. Comput. 37(4) (2015) - 2014
- [j1]Andrew J. Christlieb, James A. Rossmanith
Finite difference weighted essentially non-oscillatory schemes with constrained transport for ideal magnetohydrodynamics. J. Comput. Phys. 268: 302-325 (2014)
Coauthor Index
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