Martin Huber
From Wiki
Dipl.-Ing. Martin Huber
Institute for Analysis and Scientific Computing <br\> Wiedner Hauptstrasse 8-10 <br\> 1040 Wien, Austria
Tel: +43 1 58801 10119 <br\> Email: martin.huber@tuwien.ac.at
Research Interests
Electromagnetic Field Simulation, Finite Element Methods for the Helmholtz equation, (netgen)<br\>
Diploma Thesis
M.Huber, Radiation Efficiency Enhancement and Diffraction Effects of Photonic Crystals, Diploma Thesis, Johannes Kepler University, Linz, Austria, June 2006.
Recent work
- M. Huber, A. Pechstein, J. Schöberl: Hybrid Domain Decomposition Solvers for Scalar and Vectorial Wave Equation,ASC Report 15/2011
Publications
- M. Huber, A. Pechstein and J. Schöberl, Hybrid Domain Decomposition Solvers for Scalar and Vectorial Wave Equation, Domain Decomposition Methods in Science and Engineering XX, Lecture Notes in Computational Science and Engineering (2011)
- A. Hannukainen, M. Huber and J. Schöberl, A Mixed Hybrid Finite Element Method for the Helmholtz Equation, Journal of Modern Optics Vol. 58, Nos. 5-6, 424-437 (2011)
- M. Huber, J. Schöberl, A. Sinwel, and S. Zaglmayr, Simulation of Diffraction in Periodic Media with a Coupled Finite Element and Plane Wave Approach, SIAM J. Sci. Comput. Volume 31, Issue 2, pp. 1500-1517 (2009)
- M.V. Kovalenko, E. Kaufmann, D. Pachinger, J. Roither, M. Huber, J. Stangl, F. Schäffler and W. Heiss, Colloidal HgTe nanocrystals with widely tunable narrow band gap energies: From Telecommunications to molecular-vibrations, J. Am. Chem. Society 128 (11), 3516 (2006)
- M. Bergmair, M Huber and K. Hingerl, Band Structure, Wiener bounds and Coupled Surface Plasmons in 1D Photonic Crystals, Appl. Phys. Lett. 89, 081907 (2006)