Emergent Relativistic Effects in Condensed Matter
From Fundamental Aspects to Electronic Functionality
From Fundamental Aspects to Electronic Functionality
Experimental Condensed Matter Physics;
Charge and Spin Transport in Organic Semiconductors; Plasmonics
Experimental Condensed Matter Physics;
Materials science, Molecular beam epitaxy of low-dimensional systems, Self-organisation;
Spin electronics, Magnetic semiconductors;
Quantum information processing in solid state, Spin quantum bits
Experimental Condensed Matter Physics;
Semiconducting Nanostructures, 2D Materials;
Many-Body and Excitonic Phenomena
Theoretical Condensed Matter Physics;
Quantum Transport, Spin-Electronics;
Scanning Probe Microscopy, Nanoelectromechanical Systems, Molecular electronics
Experimental Condensed Matter Physics;
Graphene, 2D Materials, Ballistic Transport, Spin Transport
Theoretical Condensed Matter Physics;
Mesoscopic Physics, Quantum Transport, Molecular Electronics
Experimental Condensed Matter Physics;
Terahertz and infrared physics, semiconductor physics, spin sensitive optical and photoelectrical phenomena in Dirac fermions systems, nonlinear terahertz spectroscopy, tunnelling and multiphoton phenomena
Experimental Condensed Matter Physics and Physical Chemistry;
Ultrafast optics and single-molecule fluorescence microscopy;
Organic electronics and spin electronics
SFB 1277
Doris Meier
Universität Regensburg
Phone: +49 (0) 941-943 2264
Email: SFB1277.Office@ur.de
