Logo der Universität Wien
You are here:>University of Vienna >Faculty of Physics>Vienna Computational Materials Laboratory

The "Spezialforschungsbereich Vienna Computational Materials Laboratory" ("SFB ViCoM") is a Special Research Area on Computational Materials Science (Project Number: "Spezialforschungsbereich F41"), funded by the Austrian Science Fund (FWF) and managed mainly by researchers of the University of Vienna and the Vienna University of Technology.

The research of the Vienna Computational Materials Laboratory will mainly focus on an improved description of electronic correlation in solids. The newly developed methods will be applied to cutting-edge materials research using state-of-the-art multi scale methods. The total funding of the Vienna Computational Materials Laboratory for the first 4 years amounts to 3.9 million euros. For further details, please feel free to contact us.

Participating Researchers at the 10th ViCoM Workshop in Stadtschlaining (March 30/31 2016)

Photo credit: (c) SFB ViCoM


Monday, 13. November 2017

Calculating polarons in TiO2

A talk by Peter Deak Bremen Center for Computational Materials Science, Bremen University, Germany

Monday, 9. October 2017

GW and Bethe-Salpeter Approaches for Molecular Quantum Chemistry

A talk by Wim Klopper. Institute of Physical Chemistry, Karlsruhe Institute of Technology (KIT), Germany

Friday, 29. September 2017

FRIDAY: Computational material design: from a simple chemical concept to 3D topological materials

A talk by Xing-Qiu Chen, Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, P. R. China

Monday, 26. June 2017

Ab-initio description of semiconductors and nanocrystals

A talk by Tobias Sander, Computational Materials Physics, University of Vienna

Monday, 19. June 2017

Electron-phonon interaction in SrTiO3

A talk by S. N. Klimin in collaboration with J. Tempere and J. T. Devreese, TQC group, University of Antwerp, Belgium


Monday, 12. June 2017

Magnetic molecules on surfaces: a DFT look into molecular spintronics

A talk by Valerio Bellini, CNR NANO - Istituto Nanoscienze Consiglio Nazionale delle Ricerche, Italy

Monday, 29. May 2017

Recent progress on first-principles lattice thermal conductivity calculations

A talk by Atsushi Togo, Elements Strategy Initiative for Structural Materials, Kyoto University

Monday, 22. May 2017

Surface Fermi arc states and bulk spin Hall effect in Weyl semimetals

A talk by Sun, Yan, Max Planck Institute for Chemical Physics of Solids Dresden, Germany

Friday, 12. May 2017

Controlling correlated materials with ultra-short electric field transients

A talk by Prof. Dr. Martin Ecktein, Max Planck Institute for the Structure and Dynamics of Matter CFEL, Hamburg, Germany

Thursday, 11. May 2017

Design of topological and superconducting properties in and out of equilibrium

A talk by Hideo Aoki, Department of Physics, University of Tokyo and AIST, Tsukuba, Japan

<< First < Previous 1-10 11-20 21-30 31-40 41-50 51-60 61-70 Next > Last >>


Sunday, 30. March 2014

Dynamic relaxation of a levitated nanoparticle from a non-equilibrium steady state

Published in Nature Nanotechnology

Tuesday, 18. March 2014

Anisotropic two-dimensional electron gas at SrTiO3(110)

Published in PNAS

Friday, 7. March 2014

Ionization Potentials of Solids

The Importance of Vertex Corrections

Thursday, 23. January 2014

Edge Theories in Projected Entangled Pair State Models

Published in Physical Review Letters

Tuesday, 7. January 2014

Quantum Flutter: Signatures and Robustness

Published in Physical Review Letters

Wednesday, 23. October 2013

Entanglement Rates and Area Laws

Published in Physical Review Letters

Monday, 23. September 2013

Room-temperature spin-spiral multiferroicity in high-pressure cupric oxide

Published in Nature Communications

Monday, 9. September 2013

Direct calculation of the solid-liquid Gibbs free energy difference in a single equilibrium simulation0

An Interface-Pinning-Method by Ulf Rørbæk Pedersen

Monday, 19. August 2013

Elementary Excitations in Gapped Quantum Spin Systems

Published in Physical Review Letters


Sensengasse 8/12
A-1090 Vienna
T: +43-1-4277-51401
F: +43-1-4277-9514
University of Vienna | Universitätsring 1 | 1010 Vienna | T +43-1-4277-0
Lastupdate: 04.08.2016 - 11:46