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2020 – today
- 2024
[i23]Daniel Appelö, Thomas M. Hagstrom, Yann-Meing Law-Kam-Cio:
Energy-Conserving Hermite Methods for Maxwell's Equations. CoRR abs/2401.12043 (2024)- [i22]Daniel Appelö, Yingda Cheng:
Robust Implicit Adaptive Low Rank Time-Stepping Methods for Matrix Differential Equations. CoRR abs/2402.05347 (2024) - [i21]Allen Alvarez Loya, Daniel Appelö, William D. Henshaw:
High Order Accurate Hermite Schemes on Curvilinear Grids with Compatibility Boundary Conditions. CoRR abs/2406.19496 (2024) - [i20]Amit Rotem, Olof Runborg, Daniel Appelö:
Convergence of the Semi-Discrete WaveHoltz Iteration. CoRR abs/2407.06929 (2024) - [i19]Daniel Appelö, Yingda Cheng:
Kraus is King: High-order Completely Positive and Trace Preserving (CPTP) Low Rank Method for the Lindblad Master Equation. CoRR abs/2409.08898 (2024) - 2023
- [j19]Zhichao Peng, Daniel Appelö, Shuang Liu
:
Universal AMG Accelerated Embedded Boundary Method Without Small Cell Stiffness. J. Sci. Comput. 97(2): 40 (2023) - [i18]Yann-Meing Law, Daniel Appelö, Thomas M. Hagstrom:
The Hermite-Taylor Correction Function Method for Embedded Boundary and Maxwell's Interface Problems. CoRR abs/2301.01752 (2023) - [i17]Zhichao Peng, Daniel Appelö, N. Anders Petersson, Fortino Garcia, Yujin Cho:
Mathematical approaches for characterization, control, calibration and validation of a quantum computing device. CoRR abs/2301.10712 (2023) - [i16]Ke Chen, Daniel Appelö, Tracy Babb, Per-Gunnar Martinsson:
Fast and high-order approximation of parabolic equations using hierarchical direct solvers and implicit Runge-Kutta methods. CoRR abs/2306.02526 (2023) - 2022
- [j18]Yunan Yang, Alex Townsend, Daniel Appelö:
Anderson acceleration based on the H-s Sobolev norm for contractive and noncontractive fixed-point operators. J. Comput. Appl. Math. 403: 113844 (2022) - [j17]Allen Alvarez Loya, Daniel Appelö:
A Hermite Method with a Discontinuity Sensor for Hamilton-Jacobi Equations. J. Sci. Comput. 90(3): 82 (2022) - [j16]Siyang Wang, Daniel Appelö, Gunilla Kreiss:
An Energy-Based Summation-by-Parts Finite Difference Method For the Wave Equation in Second Order Form. J. Sci. Comput. 91(2): 52 (2022) - [j15]Hao Li, Daniel Appelö, Xiangxiong Zhang:
Accuracy of Spectral Element Method for Wave, Parabolic, and Schrödinger Equations. SIAM J. Numer. Anal. 60(1): 339-363 (2022) - [i15]Zhichao Peng, Daniel Appelö, Shuang Liu:
Universal AMG Accelerated Embedded Boundary Method Without Small Cell Stiffness. CoRR abs/2204.06083 (2022) - [i14]Daniel Appelö, Fortino Garcia, Allen Alvarez Loya, Olof Runborg:
El-WaveHoltz: A Time-Domain Iterative Solver for Time-Harmonic Elastic Waves. CoRR abs/2205.12344 (2022) - [i13]Fortino Garcia, Daniel Appelö, Olof Runborg:
Extensions and Analysis of an Iterative Solution of the Helmholtz Equation via the Wave Equation. CoRR abs/2205.12349 (2022) - [i12]Yann-Meing Law, Daniel Appelö:
The Hermite-Taylor Correction Function Method for Maxwell's Equations. CoRR abs/2210.07134 (2022) - 2021
- [i11]Hao Li, Daniel Appelö, Xiangxiong Zhang:
Accuracy of spectral element method for wave, parabolic and Schrödinger equations. CoRR abs/2103.00400 (2021) - [i10]Siyang Wang, Daniel Appelö, Gunilla Kreiss:
An energy-based summation-by-parts finite difference method for the wave equation in second order form. CoRR abs/2103.02006 (2021) - [i9]Zhichao Peng, Daniel Appelö:
EM-WaveHoltz: A flexible frequency-domain method built from time-domain solvers. CoRR abs/2103.14789 (2021) - [i8]Daniel Appelö, Kiera van der Sande, Nathan Albin:
Fourier Continuation Discontinuous Galerkin Methods for Linear Hyperbolic Problems. CoRR abs/2105.00123 (2021) - [i7]Lu Zhang, Daniel Appelö, Thomas M. Hagstrom:
Energy-based discontinuous Galerkin difference methods for second-order wave equations. CoRR abs/2105.01722 (2021) - [i6]Allen Alvarez Loya, Daniel Appelö:
A Hermite Method with a Discontinuity Sensor for Hamilton-Jacobi Equations. CoRR abs/2105.05364 (2021) - [i5]Daniel Appelö, Lu Zhang, Thomas M. Hagstrom, Fengyan Li:
An Energy-Based Discontinuous Galerkin Method with Tame CFL Numbers for the Wave Equation. CoRR abs/2110.07099 (2021) - 2020
- [j14]Daniel Appelö, Thomas M. Hagstrom, Qi Wang, Lu Zhang:
An energy-based discontinuous Galerkin method for semilinear wave equations. J. Comput. Phys. 418: 109608 (2020) - [j13]Daniel Appelö, Fortino Garcia, Olof Runborg:
WaveHoltz: Iterative Solution of the Helmholtz Equation via the Wave Equation. SIAM J. Sci. Comput. 42(4): A1950-A1983 (2020) - [i4]Oleksii Beznosov, Daniel Appelö:
Hermite-Discontinuous Galerkin Overset Grid Methods for the Scalar Wave Equation. CoRR abs/2001.05072 (2020) - [i3]Daniel Appelö, Thomas M. Hagstrom, Qi Wang, Lu Zhang:
An energy-based discontinuous Galerkin method for semilinear wave equations. CoRR abs/2001.09690 (2020) - [i2]Yunan Yang, Alex Townsend, Daniel Appelö:
Anderson Acceleration Using the H-s Norm. CoRR abs/2002.03694 (2020)
2010 – 2019
- 2019
- [j12]Lu Zhang, Thomas M. Hagstrom, Daniel Appelö:
An Energy-Based Discontinuous Galerkin Method for the Wave Equation with Advection. SIAM J. Numer. Anal. 57(5): 2469-2492 (2019) - [i1]Daniel Appelö, Fortino Garcia, Olof Runborg:
WaveHoltz: Iterative Solution of the Helmholtz Equation via the Wave Equation. CoRR abs/1910.10148 (2019) - 2018
- [j11]Adeline Kornelus, Daniel Appelö:
Flux-Conservative Hermite Methods for Simulation of Nonlinear Conservation Laws. J. Sci. Comput. 76(1): 24-47 (2018) - [j10]Mohammad Motamed, Daniel Appelö:
A MultiOrder Discontinuous Galerkin Monte Carlo Method for Hyperbolic Problems with Stochastic Parameters. SIAM J. Numer. Anal. 56(1): 448-468 (2018) - [j9]Daniel Appelö, Thomas M. Hagstrom, Arturo Vargas:
Hermite Methods for the Scalar Wave Equation. SIAM J. Sci. Comput. 40(6): A3902-A3927 (2018) - 2015
- [j8]Daniel Appelö, Thomas M. Hagstrom:
A New Discontinuous Galerkin Formulation for Wave Equations in Second-Order Form. SIAM J. Numer. Anal. 53(6): 2705-2726 (2015) - 2014
- [j7]Xi (Ronald) Chen, Daniel Appelö, Thomas M. Hagstrom:
A hybrid Hermite-discontinuous Galerkin method for hyperbolic systems with application to Maxwell's equations. J. Comput. Phys. 257: 501-520 (2014) - 2012
- [j6]Daniel Appelö, Jeffrey W. Banks, William D. Henshaw, Donald W. Schwendeman:
Numerical methods for solid mechanics on overlapping grids: Linear elasticity. J. Comput. Phys. 231(18): 6012-6050 (2012) - [j5]Daniel Appelö, N. Anders Petersson:
A Fourth-Order Accurate Embedded Boundary Method for the Wave Equation. SIAM J. Sci. Comput. 34(6) (2012)
2000 – 2009
- 2009
- [j4]Daniel Appelö, Tim Colonius:
A high-order super-grid-scale absorbing layer and its application to linear hyperbolic systems. J. Comput. Phys. 228(11): 4200-4217 (2009) - [j3]Daniel Appelö, Thomas M. Hagstrom:
A General Perfectly Matched Layer Model for Hyperbolic-Parabolic Systems. SIAM J. Sci. Comput. 31(5): 3301-3323 (2009) - 2006
- [j2]Daniel Appelö, Gunilla Kreiss:
A new absorbing layer for elastic waves. J. Comput. Phys. 215(2): 642-660 (2006) - [j1]Daniel Appelö, Thomas M. Hagstrom, Gunilla Kreiss:
Perfectly Matched Layers for Hyperbolic Systems: General Formulation, Well-posedness, and Stability. SIAM J. Appl. Math. 67(1): 1-23 (2006)
Coauthor Index
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