Research

Condensed Matter Dynamics Department

Director: Prof. Dr. Andrea Cavalleri

The Condensed Matter Department investigates the dynamics of solids using time dependent techniques. Tabletop and accelerator-based light sources, covering the whole electromagnetic spectrum from the THz to the hard X-rays, measure the structural dynamics of electrons, spins and atomic lattices in quantum condensed matter.

Several independent research groups are exploring alternative techniques, including nanoelectronic dynamics measured with a picosecond STM, attosecond timescale X-ray spectroscopies of solids, and theory of ultrafast quantum many body physics.

The Quantum Condensed Matter Dynamics group is lead by <strong>Andrea Cavalleri</strong> and focuses on the physics of strongly correlated electron systems, as well as and their control with strong THz frequency transients ...

Quantum Condensed Matter Dynamics

The Quantum Condensed Matter Dynamics group is lead by Andrea Cavalleri and focuses on the physics of strongly correlated electron systems, as well as and their control with strong THz frequency transients ... [more]
The group of <strong>Adrian L. Cavalieri</strong> investigates ultrafast dynamics occurring in atomic, molecular and solid-state systems. Of particular interest are optically driven electronic dynamics in materials, which may occur on the attosecond timescale and can directly precede comparatively slower, femtosecond structural dynamics and bulk phase transitions ...

Extreme Timescales

The group of Adrian L. Cavalieri investigates ultrafast dynamics occurring in atomic, molecular and solid-state systems. Of particular interest are optically driven electronic dynamics in materials, which may occur on the attosecond timescale and can directly precede comparatively slower, femtosecond structural dynamics and bulk phase transitions ... [more]
The group of <strong>Sebastian Loth</strong> studies dynamical processes in nanostructures. Of particular interest is the question how quantum confinement and enhanced electron-electron interaction modify the time-dependent evolution of low-energy excitations in nanomagnets, molecules and charge-ordered surfaces ...

Dynamics of Nanoelectronic Systems

The group of Sebastian Loth studies dynamical processes in nanostructures. Of particular interest is the question how quantum confinement and enhanced electron-electron interaction modify the time-dependent evolution of low-energy excitations in nanomagnets, molecules and charge-ordered surfaces ... [more]
<strong>Isabella Gierz'</strong> group focuses on quasiparticle dynamics on the femtosecond time scale. Our technique of choice is time- and angle-resolved photoemission spectroscopy in combination with selected electronic and vibrational excitation schemes as well as in situ sample preparation and low-energy electron diffraction ...

Otto Hahn Group for Ultrafast Electron Dynamics

Isabella Gierz' group focuses on quasiparticle dynamics on the femtosecond time scale. Our technique of choice is time- and angle-resolved photoemission spectroscopy in combination with selected electronic and vibrational excitation schemes as well as in situ sample preparation and low-energy electron diffraction ... [more]
The guest research group of <strong>Guido Meier</strong> investigates the influence of lateral nanostructuring and of coupling effects of ferromagnetic nanostructures with experimental methods and with micromagnetic simulations. Magnetism in micro- and nanostructured elements is of fundamental scientific interest, but has also the potential for applications, for example in spin electronic devices, memory applications, and in the medical sector ...

Dynamics and Transport in Nanostructures

The guest research group of Guido Meier investigates the influence of lateral nanostructuring and of coupling effects of ferromagnetic nanostructures with experimental methods and with micromagnetic simulations. Magnetism in micro- and nanostructured elements is of fundamental scientific interest, but has also the potential for applications, for example in spin electronic devices, memory applications, and in the medical sector ... [more]