Scientific colaboration


  1. Interdyscyplinary Centre for Mathematical and Computational Modelling, University of Warsaw

  2. Institute of Ceramics and Building Materials

  3. Institute of Physics, Polish Academy of Sciences

  4. Faculty of Physics, University of Warsaw

  5. Institut Nanosciences et Cryogenie, CEA-Universite Grenoble Alpes, France

  6. Research Institute of Applied Mechanics, Kyushu University, Japan


Lectures



  1. Computer methods of modelling and simulations
    • Faculty of Physics (Faculty of Physics and Applied Mathematics), Warsaw University of Technology
    • Warsaw, Koszykowa 75
    • Academic Year: 1998 - 2008
    • Spring semester

  2. Finite element method: an introduction
    • Faculty of Physics (Faculty of Physics and Applied Mathematics), Warsaw University of Technology
    • Warsaw, ul. Koszykowa 75
    • Academic Year: 2002 - 2003
    • Fall semester

  3. Foundations of materials science
    • College of Science (Faculty of Mathematics and Natural Science), Cardinal Stefan Wyszynski University
    • Warsaw, Al. Lotników 32/46
    • Academic Year: 1998 - 1999
    • Fall and spring semesters

  4. Physics, technology and modelling of crystal growth
    • Interdisciplinary Centre for Computational and Mathematical Modelling, University of Warsaw
    • Warsaw, Zwirki i Wigury 93
    • Academic Year: 2005 - 2012
    • Fall semester


PhD - promotor

  1. Zbigniew Romanowski
    • Numerical determination of the surface reactions of the diatomic gases: N2, O2, H2 and CO with the liquid group III metals: Al Ga and In
    • Faculty of Technical Physics and Applied Mathematics, Warsaw University of Technology
    • 2000

  2. Pawel Strak
    • Physical properties of nitrogen - numerical modelling
    • Faculty of Physics, Warsaw University of Technology
    • 2010

  3. Jakub Soltys
    • Modelling of physical properties and growth of mono- and multi-layer graphene, isolated and on SiC surfaces
    • Interdyscyplinary Centre for Mathematical and Computational Modelling, University of Warsaw
    • 2014

  4. Pawel Tomasz Kempisty
    • Microscopic structure and the basic molecular processes at GaN(0001) surface during crystallization of gallium nitride by hydride vapor phase epitaxy (HVPE) method
    • Insititute of High Pressure Physics, Polish Academy of Sciences
    • 2015

  5. Konrad Sakowski
    • Determination of the properties of the nitride laser diodes and light-emitting diodes by simulation based on the drift-diffusion model with the Discontinuous Galerkin Method (auxiliary promotor)
    • Faculty of Matemathics, Informatics and Mechanics, Uniwersity of Warsaw
    • 2017


Master - promotor


  1. Zbigniew Romanowski
    • Determination of energetically favored configuration of nitrogen molecule on liquid gallium surface
    • Faculty of Technical Physics and Applied Mathematics, Warsaw University of Technology
    • 1998

  2. Michal Pawlowski
    • Finite element determination of the gas flow in the MOCVD GaN deposition method.
    • Faculty of Technical Physics and Applied Mathematics, Warsaw University of Technology
    • 2000

  3. Ewa Miazin
    • Surface reaction modelling of the nitrogen and liquid gallium by molecular dynamics method
    • Faculty of Technical Physics and Applied Mathematics
    • Faculty of Physics, Warsaw University of Technology
    • 2002

  4. Pawel Tomasz Kempisty
    • Modelling of GaN crystallization under high pressure and high temperature conditions
    • Faculty of Technical Physics and Applied Mathematics, Warsaw University of Technology
    • 2006

  5. Pawel Strak
    • Nitrogen equation of state modelling by molecular dynamics method in high pressure - high temperature conditions
    • Faculty of Technical Physics and Applied Mathematics, Warsaw University of Technology
    • 2006