piwik-script

Deutsch Intern
    Theoretische Physik I

    M.Sc. Vera Irina Schnells

    Theoretische Physik I
    Julius-Maximilians-Universität Würzburg
    Am Hubland
    97074 Würzburg
    Deutschland
    Building: M1 Informatik/Physik
    Room: 3003
    Vera Irina Schnells

    M.Sc. Vera Irina Schnells

    Research interests:

    Theoretical solid state physics, strongly correlated electron systems: Topological order/insulators, spin liquids, (high-Tc) superconductivity, quantum Hall effect, magnetism, spin-orbit coupling
     

    Scientific career:

    Oct 08 - Apr 11:  

    Physics studies at Philipps-University Marburg (Degree: Bachelor of Science)
    Minor subject: Chemistry
    Study grant of the German National Academic Foundation

    May 11 - Sep 11:

    Bachelor thesis at Philipps-University Marburg in the research group of Prof. R. Noack
    Title: "Time evolution of one-dimensional quantum system - A numerical investigation"

    Oct 11 - Jan 12:

    Master studies in theoretical physics at Philipps-University Marburg
    (Degree: Master of Science)
    In cooperation with Prof. Reinhard Noack (Philipps-University Marburg)

    Feb 12 - Oct 12: 

    Grant for studies abroad of the German National Academic Foundation at
    École Polytechnique Fédérale de Lausanne, Switzerland
    In cooperation with Prof. Frédéric Mila (EPF Lausanne)
    Topics: Extension of the Shastry-Sutherland system to spin 1,
    Exact diagonalization studies

    Nov 12 - Apr 13:

    Master thesis at EPF Lausanne, in cooperation with Prof. Frédéric Mila
    and Prof. Reinhard Noack
    Title: "Theory of the magnetic properties of the bilayer iridate Sr3Ir2O7"

    May 13 - Oct 13:

    Research project at EPF Lausanne in cooperation with Prof. Frédéric Mila
    and Prof. Henrik Ronnow
    Topic: Systems with strong spin-orbit coupling, theory of the square lattice irdiates
              
    Nov 13 - present:

    PhD studies at Julius-Maximilians University Würzburg in the research group
    of Prof. Ronny Thomale
    Topics: Chiral spin liquids, topological order, non-abelian statistics