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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Epitaxy of Ge–Sb–Te phase-change memory alloys

Braun

Shayduk

Flissikowski

et al. 2009

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The authors demonstrate the epitaxy of Ge–Sb–Te alloys close to the Ge2Sb2Te5 composition on GaSb(001). Using molecular beam epitaxy with elemental sources, amorphous films are obtained at growth temperatures below 120 °C and films with a cubic structure and a predominant cube-on-cube epitaxial relationship above 180 °C. Using a high-power pulsed laser, the epitaxial films are switched between the crystalline and the amorphous phases. Streaks in the diffraction data help to resolve the apparent ambiguity in interatomic distances between earlier x-ray absorption and powder diffraction measurements. The structural changes are confirmed by Raman spectroscopy.

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Nanoscale heat transport studied by high-resolution time-resolved x-ray diffraction

et al. 2011

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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 Radiat

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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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Insight into the Growth and Control of Single-Crystal Layers of Ge–Sb–Te Phase-Change Material

Katmis

Calarco

Perumal

et al. 2011

Crystal Growth & Design

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Normalization schemes for ultrafast x-ray diffraction using a table-top laser-driven plasma source

Schick

Bojahr

Herzog

et al. 2012

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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

Epitaxy of Ge–Sb–Te phase-change memory alloys

Nanoscale heat transport studied by high-resolution time-resolved x-ray diffraction

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

Insight into the Growth and Control of Single-Crystal Layers of Ge–Sb–Te Phase-Change Material

Normalization schemes for ultrafast x-ray diffraction using a table-top laser-driven plasma source

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