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People



Prof. Gierz

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Prof. Dr. Isabella Gierz (head of the group)

Office: WNA3.0.009
Phone: +49 (0)941 943 7501
Email: isabella.gierz-at-ur.de

CV

Previous and current positions

since 04/2019 W2 professor at the Institute for Experimental and Applied Physics at the University of Regensburg
2013-2019 Leader of an independent research group at the Max Planck Institute for the Structure and Dynamics of Matter in Hamburg, Germany www.mpsd.mpg.de/5841/ued-gierz
2011-2013 Postdoc in the Condensed Matter Dynamics Department of Prof. Andrea Cavalleri at the Max Planck Institute for the Structure and Dynamics of Matter in Hamburg, Germany


Education

2007-2013 PhD student in the department for nanostructure physics of Prof. Klaus Kern at the Max Planck Institute for Solid State Research in Stuttgart, Gemany
2006-2007 Diploma student in the department of Prof. Eberhard Umbach at the University of Würzburg, Germany
2001-2007 Studies of Physics at the University of Würzburg, Germany, and the Université Joseph Fourier in Grenoble, France

Stipends and Awards

2002-2007 Stipend of the Studienstiftung des deutschen Volkes
2011 Otto Hahn Medal and Otto Hahn Award of the Max Planck Society for the discovery of a giant spin splitting on semiconducting surfaces
2019 ERC Starting Grant


Technician

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Thomas Seitz (Technician)
Office: WNA3.0.010
Phone: +49 (0)941 943 7502
Lab: +49 (0)941 943 7505
Email: thomas.seitz-at-ur.de


PhD students

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Maria-Elisabeth Federl

Office: WNA3.0.013
Phone: +49 (0)941 943 7504
Lab: +49 (0)941 943 7505
Email: maria-elisabeth.federl-at-ur.de

Maria uses confinement heteroepitaxy to make new heterostructures that consist of monolayer graphene and 2D Sn. She characterizes these samples with ARPES, XPS, and LEED and compares the measured electronic structure with DFT calculations looking for indications of hybridization between the layers. She investigates these heterostructures with tr-ARPES looking for ultrafast charge transfer and other proximity-induced non-equilibrium effects.


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Johannes Gradl

Office: WNA3.0.013
Phone: +49 (0)941 943 7504
Lab: +49 (0)941 943 7505
Email: johannes.gradl-at-stud.uni-regensburg.de

Johannes investigates the microscopic scattering channels that are responsible for ultrafast charge transfer in WS2/graphene heterostructures. He focuses on the role of defects and the twist angle between the layers.


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Michael Herb

Office: WNA3.0.013
Phone: +49 (0)941 943 7504
Lab: +49 (0)941 943 7505
Email: michael.herb-at-ur.de

Mischa is growing KxC60 films on different substrates for future tr-ARPES experiments on light-induced superconductivity.


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Niklas Hofmann

Office: WNA3.0.011
Phone: +49 (0)941 943 7503
Lab: +49 (0)941 943 7505
Email: niklas.hofmann-at-ur.de

Niklas is bulding a tr-ARPES setup with narrow-band THz pump pulses to investigate the electronic structure of different transition metal dichalcogenides driven at resonance to the infrared-active in-plane phonon.


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Leonard Weigl

Office: WNA3.0.011
Phone: +49 (0)941 943 7503
Lab: +49 (0)941 943 7505
Email: leonard.weigl-at-ur.de

Leo is using tr-ARPES to demonstrate dynamical stabilization of non-equilibrium band structures with the goal to realize, e.g., Floquet topological insulators.


Master students

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Maximilian Stecher

Office: WNA3.0.010
Phone: +49 (0)941 943 7502
Lab: +49 (0)941 943 7505
Email: maximilian.stecher-at-stud.uni-regensburg.de

Max uses confinement heteroepitaxy to make new heterostructures that consist of monolayer graphene and another 2D material such as 2D Au, 2D Gd, or 2D Yb. He then uses tr-ARPES to investigate the non-equilibrium carrier dynamics of these heterostructures looking for ultrafast charge transfer and other proximity-induced non-equilibrium effects.


Bach. students

Franziska Bergmeier
Office: PHY 7.3.01
Phone: +49 (0)941 943 7401
Lab: +49 (0)941 943 7505
Email: franziska.bergmeier-at-stud.uni-regensburg.de

Franziska is working on building and characterizing a setup for time-resolved ARPES with mid-infrared pump light.





Prof. Dr. Isabella Gierz

isabella.gierz(at)ur.de


+49 (0)941 943 7501
WNA3 0.01