Your search keyword '"Frömter, Robert"' showing total 2 results

1. Direct 2D spatial-coherence determination using the Fourier-analysis method: Multi-parameter characterization of the P04 beamline at PETRA III

Author

Bagschik, Kai, Wagner, Jochen, Buß, Ralph, Riepp, Matthias, Philippi-Kobs, André, Müller, Leonard, Buck, Jens, Trinter, Florian, Scholz, Frank, Seltmann, Jörn, Hoesch, Moritz, Viefhaus, Jens, Grübel, Gerhard, Oepen, Hans Peter, and Frömter, Robert

Subjects

Physics::Accelerator Physics, ddc:530, no topic specified

Abstract

Optics express 28(5), 7282 - (2020). doi:10.1364/OE.382608, We present a systematic 2D spatial-coherence analysis of the soft-X-ray beamline P04 at PETRA III for various beamline configurations. The influence of two different beam-defining apertures on the spatial coherence properties of the beam is discussed and optimal conditions for coherence-based experiments are found. A significant degradation of the spatial coherence in the vertical direction has been measured and sources of this degradation are identified and discussed. The Fourier-analysis method, which gives fast and simple access to the 2D spatial coherence function of the X-ray beam, is used for the experiment. Here, we exploit the charge scattering of a disordered nanodot sample allowing the use of arbitrary X-ray photon energies with this method., Published by Soc., Washington, DC

Published

2020

2. Ultrafast Magnetisation Dynamics at the Low-Fluence Limit Supported by External Magnetic Fields

Author

Riepp, Matthias, Bagschik, Kai, Capotondi, Flavio, Frömter, Robert, Golz, Torsten, Grübel, Gerhard, Kiskinova, Maya, Müller, Leonard, Naumenko, Denys, Oepen, Hans Peter, Pedersoli, Emanuele, Philippi-Kobs, André, Roseker, Wojciech, Rysov, Rustam, Stojanovic, Nikola, and Walther, Michael

Subjects

Condensed Matter::Materials Science, FEL Applications, Physics::Atomic and Molecular Clusters, Physics::Optics, Accelerator Physics

Abstract

We report on ultrafast magnetisation dynamics in ferro-magnetic cobalt/platinum multilayers upon pumping by near and mid to far infrared radiation, utilizing sub-100 femtosecond free-electron laser pulses. The evolution of the excited magnetic state is studied on femtosecond timescales with nanometre spatial resolution and element selectivity, employing time-resolved magnetic small-angle X-ray scattering. The obtained results contribute to the ongoing discussion to what extent either coupling of the electromagnetic field or rather quasi-instantaneous heating of the electron-system is the driving force for phenomena like ultrafast demagnetization or all-optical helicity-dependent switching., Proceedings of the 39th Free Electron Laser Conference, FEL2019, Hamburg, Germany

Published

2019