Difference between revisions of "Martin Huber"

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==== Publications ====
 
==== Publications ====
 
# A. Hannukainen, M. Huber and J. Schöberl: ''A Mixed Hybrid Finite Element Method for the Helmholtz Equation.'' to appear in Journal of Modern Optics (2010) [http://www.asc.tuwien.ac.at/~schoeberl/wiki/publications/MHHelmholtz.pdf preprint]
 
# A. Hannukainen, M. Huber and J. Schöberl: ''A Mixed Hybrid Finite Element Method for the Helmholtz Equation.'' to appear in Journal of Modern Optics (2010) [http://www.asc.tuwien.ac.at/~schoeberl/wiki/publications/MHHelmholtz.pdf preprint]
 
 
# M. Huber, J. Schöberl, A. Sinwel, and S. Zaglmayr, [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=SJOCE3000031000002001500000001&idtype=cvips&gifs=yes 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. Huber, J. Schöberl, A. Sinwel, and S. Zaglmayr, [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=SJOCE3000031000002001500000001&idtype=cvips&gifs=yes 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, [http://pubs.acs.org/doi/abs/10.1021/ja058440j?journalCode=jacsat&quickLinkVolume=128&quickLinkPage=3516&volume=128 Colloidal HgTe nanocrystals with widely tunable narrow band gap energies: From Telecommunications to molecular-vibrations], J. Am. Chem. Society 128 (11), 3516 (2006)
 
# M.V. Kovalenko, E. Kaufmann, D. Pachinger, J. Roither, M. Huber, J. Stangl, F. Schäffler and W. Heiss, [http://pubs.acs.org/doi/abs/10.1021/ja058440j?journalCode=jacsat&quickLinkVolume=128&quickLinkPage=3516&volume=128 Colloidal HgTe nanocrystals with widely tunable narrow band gap energies: From Telecommunications to molecular-vibrations], J. Am. Chem. Society 128 (11), 3516 (2006)
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# M. Bergmair, M Huber and K. Hingerl, [http://apl.aip.org/resource/1/applab Band Structure, Wiener bounds and Coupled Surface Plasmons in 1D Photonic Crystals], Appl. Phys. Lett. 89, 081907 (2006)

Revision as of 11:02, 1 October 2010


Dipl.-Ing. Martin Huber

Institute for Analysis and Scientific Computing <br\> Wiedner Hauptstrasse 8-10 <br\> 1040 Wien, Austria

Tel: +43 1 58801 10116 <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.

Publications

  1. A. Hannukainen, M. Huber and J. Schöberl: A Mixed Hybrid Finite Element Method for the Helmholtz Equation. to appear in Journal of Modern Optics (2010) preprint
  2. 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)
  3. 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)
  4. 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)