Annalisa Buffa, Jürgen Dölz, Stefan Kurz, Sebastian Schöps, Rafael Vázquez, and Felix Wolf. Multipatch approximation of the de Rham sequence and its traces in isogeometric analysis. Numer. Math., 144(1):201–236, 06 2019. arxiv:1806.01062.
Jürgen Dölz, Helmut Harbrecht, and Michael Peters. An interpolation-based fast multipole method for higher-order boundary elements on parametric surfaces. Int. J. Numer. Meth. Eng., 108(13):1705–1728, 2016.
Jürgen Dölz, Helmut Harbrecht, Stefan Kurz, Sebastian Schöps, and Felix Wolf. A fast isogeometric BEM for the three dimensional Laplace- and Helmholtz problems. Comput. Meth. Appl. Mech. Eng., 330:83–101, 03 2018. arxiv:1708.09162.
Jürgen Dölz, Stefan Kurz, Sebastian Schöps, and Felix Wolf. Isogeometric boundary elements in electromagnetism: Rigorous analysis, fast methods, and examples. SIAM J. Sci. Comput., 41(5):B983–B1010, 10 2019. arxiv:1807.03097.
Jürgen Dölz, Helmut Harbrecht, Stefan Kurz, Michael Multerer, Sebastian Schöps, and Felix Wolf. Bembel: The fast isogeometric boundary element C++ library for Laplace, Helmholtz, and electric wave equation. Software X, 11:100476, 04 2020.
Jürgen Dölz, Stefan Kurz, Sebastian Schöps, and Felix Wolf. A numerical comparison of an isogeometric and a parametric higher-order Raviart-Thomas approach to the electric field integral equation. IEEE Trans. Antenn. Propag., 68(1):593–597, 01 2020. arxiv:1807.03628.
Jürgen Dölz, Helmut Harbrecht, Carlos Jerez-Hanckes, and Michael Multerer. Isogeometric multilevel quadrature for forward and inverse random acoustic scattering. Comput. Meth. Appl. Mech. Eng., 388:114242, 2022.
Jürgen Dölz, Olena Palii, and Matthias Schlottbom. On robustly convergent and efficient iterative methods for anisotropic radiative transfer. J. Sci. Comput., 90(3):94, 2022.
Jürgen Dölz, Helmut Harbrecht, and Michael Multerer. Solving acoustic scattering problems by the isogeometric boundary element method. Preprint arxiv:2306.11324, Cornell University, 06 2023.
Jürgen Dölz, Wei Huang, and Michael Multerer. $p$-multilevel Monte Carlo for acoustic scattering from large deviation rough random surfaces. Preprint arxiv:2311.12565, Cornell University, 11 2023.
Jürgen Dölz. A higher order perturbation approach for electromagnetic scattering problems on random domains. SIAM/ASA J. UQ, 8(2):748–774, 2020.
Jürgen Dölz. Data sparse multilevel covariance estimation in optimal complexity. Preprint arxiv, Cornell University, 2023.
Mehdi Elasmi, Christoph Erath, and Stefan Kurz. Non-symmetric isogeometric FEM-BEM couplings. Adv. Appl. Math. Mech., 47(61), 2021. arxiv:2007.09057.
Helmut Harbrecht and Michael Peters. Comparison of fast boundary element methods on parametric surfaces. Comput. Meth. Appl. Mech. Eng., 261:39–55, 2013.
Helmut Harbrecht, Michael Multerer, and Remo Rickenbach. Isogeometric shape optimization of periodic structures in three dimensions. Comput. Meth. Appl. Mech. Eng., 391:114552, 03 2022.
Wei Huang and Michael Multerer. Isogeometric analysis of diffusion problems on random surfaces. APNUM, 179:50–65, 2022.
Stefan Kurz, Sebastian Schöps, Gerhard Unger, and Felix Wolf. Solving Maxwell's eigenvalue problem via isogeometric boundary elements and a contour integral method. Math. Meth. Appl. Sci., 44(13):10790–10803, 2021. arxiv:2001.09686.
Melvin Liebsch, Stephan Russenschuck, and Stefan Kurz. BEM-based magnetic field reconstruction by ensemble kálmán filtering. Comput. Meth. Appl. Math., 2022.
Maximilian Nolte, Riccardo Torchio, Sebastian Schöps, Jürgen Dölz, Felix Wolf, and Albert E. Ruehli. A low-frequency-stable higher-order spline-based integral equation method. Preprint arxiv:2401.10735, Cornell University, 01 2024.
Riccardo Torchio, Maximilian Nolte, Sebastian Schöps, and Albert E. Ruehli. A spline-based partial element equivalent circuit method for electrostatics. IEEE Trans. Dielectr. Electr. Insul., 30(2), 04 2023. arxiv:2207.13697.