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

Principal Investigators

Christian Back

A08 - A01

Experimental Condensed Matter Physics;
Magnetisation Dynamics, Magnetic Materials, Spin-Electronics

Sebastian Bange

B03

Experimental Condensed Matter Physics;
Charge and Spin Transport in Organic Semiconductors; Plasmonics

Dominique Bougeard

A01

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

Alexey Chernikov

B05

Experimental Condensed Matter Physics;
Semiconducting Nanostructures, 2D Materials;
Many-Body and Excitonic Phenomena

Andrea Donarini

B02

Theoretical Condensed Matter Physics;
Quantum Transport, Spin-Electronics;
Scanning Probe Microscopy, Nanoelectromechanical Systems, Molecular electronics

Hubertus Ebert

A02

Theoretical Condensed Matter Physics;
Electronic structure of solids and low-dimensional systems;
Relativistic effects in non-magnetic and magnetic systems;
Electronic transport in bulk and layered materials;
Electron spectroscopy including dichroic effects

David A. Egger

B01

Theoretical Condensed Matter Physics;
Surface Science;
Density Functional Theory

Jonathan Eroms

A09

Experimental Condensed Matter Physics;
Graphene, 2D Materials, Ballistic Transport, Spin Transport

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Ferdinand Evers

A03 - B01 - MGK

Theoretical Condensed Matter Physics;
Mesoscopic Physics, Quantum Transport, Molecular Electronics

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Jaroslav Fabian

A09 - B05 - B07

Theoretical Condensed Matter Physics;
Spintronics, Two-dimensional materials

Sergey Ganichev

A04

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

Franz J. Giessibl

A02

Experimental Condensed Matter Physics;
Scanning probe microscopy in ambient conditions, ultrahigh vacuum and low temperatures, force sensor technology, tip - sample interactions, atomic manipulation, chemical identification of single atoms, algorithms for force deconvolution and image correction

Milena Grifoni

B02 - B04

Theoretical Condensed Matter Physics;
Quantum Transport, Spin-Electronics, Molecular Electronics, Low-dimensional systems;
Quantum dissipative systems, quantum computing

Rupert Huber

A05 - B02 - Z

Experimental Condensed Matter Physics and Optics;
Ultrafast Quantum Electronics and Photonics, Sub-cycle Optics and Transport;
High-Harmonics Generation, Nano-Spectroscopy, Terahertz Photonics, Quantum Optics

Christoph Lange

A05

Experimental Condensed Matter Physics and Optics;
Ultrafast Quantum Electronics and Photonics, Sub-cycle Quantum Optics, High-harmonics Generation;
Terahertz Photonics, Quantum Optics

John Lupton

B03

Experimental Condensed Matter Physics and Physical Chemistry;
Ultrafast optics and single-molecule fluorescence microscopy;
Organic electronics and spin electronics

Contact

SFB 1277
Doris Meier
Universit├Ąt Regensburg

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