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2020 – today
- 2023
[i4]Herbert De Gersem, Thomas Weiland:
Reformulation and generalisation of the air-gap element. CoRR abs/2312.16984 (2023)
2010 – 2019
- 2017
- [j15]Hideki Kawaguchi, Thomas Weiland:
Initial Value Problem Formulation TDBEM with 4-D Domain Decomposition Method and Application to Wake Fields Analysis. IEICE Trans. Electron. 100-C(1): 37-44 (2017) - [c2]Ha-Duong Ngo, Piotr Mackowiak
, Niels Grabbert, Thomas Weiland, Xiaodong Hu, Martin Schneider-Ramelow, Oswin Ehrmann, Klaus-Dieter Lang:
The roadmap for development of piezoresistive micro mechanical sensors for harsh environment applications. ICST 2017: 1-6 - [i3]Mariusz Klimek, Stefan Kurz, Sebastian Schöps, Thomas Weiland:
A Space-Time Approach for the Time-Domain Simulation in a Rotating Reference Frame. CoRR abs/1706.05748 (2017) - 2016
- [j14]Ulrich Römer, Sebastian Schöps, Thomas Weiland:
Stochastic Modeling and Regularity of the Nonlinear Elliptic curl-curl Equation. SIAM/ASA J. Uncertain. Quantification 4(1): 952-979 (2016) - [i2]Ulrich Römer, Sebastian Schöps, Thomas Weiland:
Stochastic Modeling and Regularity of the Nonlinear Elliptic Curl-Curl Equation. CoRR abs/1606.07643 (2016) - [i1]Mariusz Klimek, Stefan Kurz, Sebastian Schöps, Thomas Weiland:
Discretization of Maxwell's Equations for Non-inertial Observers Using Space-Time Algebra. CoRR abs/1611.07368 (2016) - 2015
- [j13]Herbert Egger, Fritz Kretzschmar, Sascha M. Schnepp, Igor Tsukerman, Thomas Weiland:
Transparent boundary conditions for a discontinuous Galerkin Trefftz method. Appl. Math. Comput. 267: 42-55 (2015) - [j12]Herbert Egger, Fritz Kretzschmar, Sascha M. Schnepp, Thomas Weiland:
A Space-Time Discontinuous Galerkin Trefftz Method for Time Dependent Maxwell's Equations. SIAM J. Sci. Comput. 37(5) (2015) - 2014
- [j11]Annette Fröhlcke, Erion Gjonaj, Thomas Weiland:
A boundary conformal discontinuous Galerkin approach for electro-quasistatic field problems on Cartesian grids. Int. J. Comput. Sci. Eng. 9(5/6): 478-483 (2014) - [j10]Jens Trommler, Stephan Koch, Thomas Weiland:
Coupled simulation of switching arcs considering transient-capacitive effects. Int. J. Comput. Sci. Eng. 9(5/6): 538-548 (2014) - [j9]Fritz Kretzschmar, Sascha M. Schnepp, Igor Tsukerman, Thomas Weiland:
Discontinuous Galerkin methods with Trefftz approximations. J. Comput. Appl. Math. 270: 211-222 (2014) - [j8]M. Lilienthal, Sascha M. Schnepp, Thomas Weiland:
Non-dissipative space-time hp-discontinuous Galerkin method for the time-dependent Maxwell equations. J. Comput. Phys. 275: 589-607 (2014) - 2013
- [c1]Marija Vuchkovikj, Irina Munteanu, Thomas Weiland:
Numerical approach for separation and movement of the fingers of the HUGO model for analysis of SAR distribution. SoftCOM 2013: 1-5 - 2012
- [j7]Jens Trommler, Stephan Koch, Thomas Weiland:
A finite-element approach in order to avoid ill-conditioning in thin-sheet problems in frequency domain - Application to magneto-quasistatics. J. Comput. Appl. Math. 236(18): 4671-4680 (2012) - [j6]Sascha M. Schnepp, Thomas Weiland:
Efficient large scale electromagnetic simulations using dynamically adapted meshes with the discontinuous Galerkin method. J. Comput. Appl. Math. 236(18): 4909-4924 (2012) - 2010
- [j5]Sascha M. Schnepp, Erion Gjonaj, Thomas Weiland:
A hybrid Finite Integration-Finite Volume Scheme. J. Comput. Phys. 229(11): 4075-4096 (2010) - [j4]Jing Gao, Wolfgang F. O. Müller, Felix Greiner, Dirk Eicher, Thomas Weiland, Helmut F. Schlaak:
Combined Simulation of a Micro Permanent Magnetic Linear Contactless Displacement Sensor. Sensors 10(9): 8424-8436 (2010)
2000 – 2009
- 2008
- [p1]Thomas Weiland:
3D Elektromagnetische Simulation. Zukunft Ingenieurwissenschaften 2008: 61-65 - 2007
- [j3]Kazuhiro Fujita, Hideki Kawaguchi, Shusuke Nishiyama, Satoshi Tomioka, Takeaki Enoto, Igor Zagorodnov, Thomas Weiland:
Scattered-Field Time Domain Boundary Element Method and Its Application to Transient Electromagnetic Field Simulation in Particle Accelerator Physics. IEICE Trans. Electron. 90-C(2): 265-274 (2007) - [j2]Igor Zagorodnov, Rolf Schuhmann, Thomas Weiland:
Conformal FDTD-methods to avoid time step reduction with and without cell enlargement. J. Comput. Phys. 225(2): 1493-1507 (2007) - 2006
- [j1]Andreas Barchanski, Markus Clemens, Herbert De Gersem, Thomas Weiland:
Efficient calculation of current densities in the human body induced by arbitrarily shaped, low-frequency magnetic field sources. J. Comput. Phys. 214(1): 81-95 (2006)
Coauthor Index
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