Emergent Relativistic Effects in Condensed Matter
From Fundamental Aspects to Electronic Functionality

Principal Investigators

Show former Principal Investigators

Magdalena Marganska-Lyzniak

B04

Theoretical Condensed Matter Physics;
Electronic Structures, Carbon Nanotube Physics, Quantum Transport

Nicola Paradiso

B08 - B04

Experimental Condensed Matter Physics;
Quantum Hall Physics;
Scanning Probe Microscopy at low temperature, Nanoplasmonics;
Transport in carbon nanotubes, Transport in transition metal dichalcogenides

Sivan Refaely-Abramson

A03 - B10

Jascha Repp

B02

Experimental Condensed Matter Physics;
Scanning Tunneling Microscopy;
Frequency Modulated Atomic Force Microscopy, Single Molecule Electronics

Klaus Richter

Z - A07

Theoretical Condensed Matter Physics;
Mesoscopic Physics, Quantum Transport, Topological Insulators, Graphen, Spin-Electronics;
Semiclassical Methods and Quantum Chaos

John Schliemann

B09

Christian Schüller

B05

Experimental Condensed Matter Physics;
Optical Spectroscopy, Pump-Probe Spectroscopy, Raman Spectroscopy, Spin Dynamics, Semiconductor Nanostructures and Two-Dimensional Crystals

Christoph Strunk

MGK - B08 - B04

Experimental Condensed Matter Physics;
Mesoscopic Physics, Quantum Transport, Spin-Electronics;
Carbon Nanotubes, Shot Noise

Juan Diego Urbina

A07

Theoretical Condensed Matter Physics;
Mesoscopic Physics, Random Matrix Theory, Semiclassical Methods and Quantum Chaos;
Interference effects in Many-Body Quantum Systems, Open Quantum Systems

Jan Vogelsang

B11

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Dieter Weiss

A08

Experimental Condensed Matter Physics;
Quantum Transport, Mesoscopic Physics, Spin-Electronics;
Nanofabrication and Low Temperature Transport

Jan Wilhelm

A03

Jörg Wunderlich

A10

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Universität Regensburg

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