Talks & Posters of Thomas Koprucki

Talks:

  1. T. Koprucki.
    Numerische Verfahren zu kp Operatoren. Methode und Beispiele.
    Langenbach-Seminar, WIAS Berlin, November 11, 1998.
  2. T. Koprucki, U. Bandelow, H.-Chr. Kaiser, and J. Rehberg.
    A finite-element approach to the eigenvalue problem arising from kp-Hamilton operators for quantum wells.
    11th III-V Semiconductor Device Simulation Workshop, IEMN, Université des Sciences et Technologies de Lille, Villeneuve d'Ascq, France, May 10-11, 1999.
  3. T. Koprucki.
    Simulation von Halbleiter-Heterostrukturen. kp-Methode für verspannte Quantum-Wells in Halbleiterlasern.
    Seminar Aktuelle Fragen der Theoretischen Physik, Fachbereich 6, Universität-Gesamthochschule Paderborn, October 18, 1999.
  4. T. Koprucki.
    Efficient Simulation of Electronic States in Semiconductor Quantum Wells.
    16th GAMM-Seminar on Numerical techniques for Schrödinger equations, Max-Planck-Institut für Mathematik in den Naturwissenschaften, Leipzig, February 3-5, 2000.
  5. T. Koprucki, U. Bandelow.
    Modeling and Simulation of Electronic States in Quantum Wells.
    12th III-V Semiconductor Device Simulation Workshop, Gerhard-Mercator-University Duisburg, October 10-11, 2000.
  6. T. Koprucki.
    Exact Ground States for One-Dimensional Quantum Many-Body Systems.
    Max-Planck-Institute for Mathematics in the Sciences, Leipzig, March 8, 2001.
  7. T. Koprucki.
    Exact Ground States for One-Dimensional Quantum Many-Body Systems.
    Langenbach-Seminar, WIAS Berlin, April 25, 2001.
  8. T. Koprucki.
    On Eigenvalue Problems Arising from the Modeling of Semiconductor Nanostructures.
    22. Norddeutsches Kolloquium Angewandte Analysis und Numerische Mathematik, Christian-Albrechts-Universität Kiel, May 18-19, 2001.
  9. T. Koprucki, J. Fuhrmann, H.-Chr. Kaiser and G. Schmidt.
    Envelope Function Approximation for Electronic States in Semiconductor Nanostructures.
    2nd Colloquium DFG Priority Program 1095 Analysis, Modeling and Simulation of Multiscale Problems, Andreas Hermes Akademie Bonn-Röttgen, July 2-4, 2001.
  10. T. Koprucki.
    On Eigenvalue Problems Arising from the Modeling of Semiconductor Nanostructures.
    First SIAM-EMS Conference "Applied Mathematics in our Changing World", Berlin, September 2-6, 2001.
  11. T. Koprucki, J. Fuhrmann, H.-Chr. Kaiser and G. Schmidt.
    Envelope Function Approximation for Electronic States in Semiconductor Nanostructures.
    Workshop "Multiscale Problems in Quantum Mechanics and Averaging Techniques", Universität Konstanz, October 25-26, 2001.
  12. T. Koprucki.
    What can Wigner formalism based modeling learn from k·p Schrödinger equations?
    Workshop "Numerical and asymptotic methods for kinetic equations", Saarland University, Saarbrücken, November 29 - December 1, 2001.
  13. T. Koprucki.
    Upscaling of microscopically calculated characteristics to macroscopic state equations.
    Fourth Colloquium DFG Priority Program on Analysis, Modeling and Simulation of Multiscale Problems, Andreas Hermes Akademie Bonn-Röttgen, June 2-4, 2003.
  14. T. Koprucki.
    Upscaling of microscopically calculated characteristics to macroscopic state equations.
    Workshop on Multiscale problems in quantum mechanics and averaging techniques, Max-Planck-Institut für Mathematik in den Naturwissenschaften, Leipzig, December 11-12, 2003.
  15. T. Koprucki.
    Electronic states in semiconductor nanostructures and upscaling to semi-classical models.
    Fifth Colloquium of the DFG Priority Program Analysis, Modeling and Simulation of Multiscale Problems, Physikzentrum, Bad Honnef, May 20-21, 2004.
  16. T. Koprucki.
    On a finite volume scheme for the computation of quantum confined states in semiconductor nanostructures.
    22nd GAMM-Seminar Leipzig on Large Scale Eigenvalue Computations, Max-Planck-Institut für Mathematik in den Naturwissenschaften, Leipzig, January 19-21, 2006.
  17. T. Koprucki.
    Upscaling of quantum calculations to macroscopic state equations.
    GAMM Annual Meeting 2006, TU Berlin, March 27-31, 2006.
  18. T. Koprucki.
    Modellierung und numerische Berechnung elektronischer Zustände in Halbleiter- Nanostrukturen.
    Technische Universität Hamburg-Harburg, Institut für Numerische Simulation, May 17, 2006.
  19. T. Koprucki.
    Electronic states in semiconductor nanostructures and upscaling to semi-classical models.
    Conference on Multiscale Problems, TU München, October 9-11, 2006.
  20. T. Koprucki.
    Band gap estimates for kp Schrödinger operators.
    ANR Quatrain Meeting, IRMAR, Uni Rennes, France, May 20, 2008.
  21. T. Koprucki.
    Modeling of electronic states in semiconductor nanostructures - kp-method and envelope function approximation.
    Leipzig-Berlin-Seminar, TU Berlin, June 10, 2008.
  22. T. Koprucki.
    Spektraleigenschaften von kp-Schrödingeroperatoren.
    Doktorandenseminar des DFG SFB 787 Nanophotonik, TU Berlin, Februar 6, 2009.

Posters:

  1. T. Koprucki.
    On Eigenvalue Problems Arising from the Modeling of Semiconductor Nanostructures.
    III International Workshop on Accurate Solution of Eigenvalue Problems, Hagen, July 3-6, 2000. Second place in poster competition.
  2. J. Fuhrmann, H.-Chr. Kaiser, T. Koprucki, and G. Schmidt.
    Multiscale Modeling of Electronic States in Semiconductor Nanostructures.
    3rd Colloquium DFG Priority Program 1095 Analysis, Modeling and Simulation of Multiscale Problems, Physikzentrum Bad Honnef, June 9-12, 2002.
  3. J. Fuhrmann, H.-Chr. Kaiser, T. Koprucki, and G. Schmidt.
    Electronic states in semiconductor nanostructures and upscaling to semi-classical models .
    Fifth Colloquium DFG Priority Program 1095 Analysis, Modeling and Simulation of Multiscale Problems, Physikzentrum, Bad  Honnef, May 20-21, 2004.
  4. T. Koprucki.
    Spectral properties and band gap estimates for kp-Hamiltonians for quantum wells.
    International Nano-Optoelectronic Workshop 2009, Stockholm, Sweden and Berlin, Germany, August 2-15, 2009.