Roman Shayduk scite author profile

The udkm1Dsim toolbox is a collection of matlab (MathWorks Inc.) classes and routines to simulate the structural dynamics and the according X-ray diffraction response in one-dimensional crystalline sample structures upon an arbitrary time-dependent external stimulus, e.g. an ultrashort laser pulse. The toolbox provides the capabilities to define arbitrary layered structures on the atomic level including a rich database of corresponding element-specific physical properties. The excitation of ultrafast dynamics is represented by an N -temperature model which is commonly applied for ultrafast optical excitations. Structural dynamics due to thermal stress are calculated by a linear-chain model of masses and springs. The resulting X-ray diffraction response is computed by dynamical X-ray theory. The udkm1Dsim toolbox is highly modular and allows for introducing user-defined results at any step in the simulation procedure.

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Analysis of ultrafast X-ray diffraction data in a linear-chain model of the lattice dynamics

Herzog

Schick

Gaal

et al. 2011

Appl. Phys. A

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Ultrafast lattice response of photoexcited thin films studied by X-ray diffraction

Schick

Herzog

Bojahr

et al. 2014

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Using ultrafast X-ray diffraction, we study the coherent picosecond lattice dynamics of photoexcited thin films in the two limiting cases, where the photoinduced stress profile decays on a length scale larger and smaller than the film thickness. We solve a unifying analytical model of the strain propagation for acoustic impedance-matched opaque films on a semi-infinite transparent substrate, showing that the lattice dynamics essentially depend on two parameters: One for the spatial profile and one for the amplitude of the strain. We illustrate the results by comparison with high-quality ultrafast X-ray diffraction data of SrRuO3 films on SrTiO3 substrates.

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Materials Imaging and Dynamics (MID) instrument at the European X-ray Free-Electron Laser Facility

Madsen¹,

Hallmann²,

Ansaldi³

et al. 2021

J Synchrotron Rad

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The Materials Imaging and Dynamics (MID) instrument at the European X-ray Free-Electron Laser (EuXFEL) facility is described. EuXFEL is the first hard X-ray free-electron laser operating in the MHz repetition range which provides novel science opportunities. The aim of MID is to enable studies of nano-structured materials, liquids, and soft- and hard-condensed matter using the bright X-ray beams generated by EuXFEL. Particular emphasis is on studies of structure and dynamics in materials by coherent scattering and imaging using hard X-rays. Commission of MID started at the end of 2018 and first experiments were performed in 2019.

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Roman Shayduk

udkm1Dsim—A simulation toolkit for 1D ultrafast dynamics in condensed matter

Analysis of ultrafast X-ray diffraction data in a linear-chain model of the lattice dynamics

Ultrafast lattice response of photoexcited thin films studied by X-ray diffraction

Materials Imaging and Dynamics (MID) instrument at the European X-ray Free-Electron Laser Facility

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