Dataset for "Time-resolved nanospectroscopy of III–V semiconductor nanowires"

Raw data, processed data in Origin files and Python scripts for modeling and fittin

A comprehensive assessment of the design, materials and fluids for high-temperature solid sensible thermal energy storage in a power-to-heat-to-power cycle

The data of the results of the simulation presented in the journal publication "A comprehensive assessment of the design, materials and fluids for high-temperature solid sensible thermal energy storage in a power-to-heat-to-power cycle"

Data publication: Relativistic Quantum Kinetic Theory: Higher order contributions in assisted Schwinger pair production

A Matlab code that can be used for simulating the physics discussed in the associated paper is available to access here. This publication also contains the data sets generated by the according simulation, which were in turn used to create the figures and tables in the research publication. The dataset describes particle distribution functions in the context of electron-positron pair production in time-dependent fields, making use of the hierarchy expansion

Supplementary material to the paper Thermo-fluid and economic performance of PCHEs in a high-temperature Thermal Energy Storage System coupled with an sCO2 Brayton cycle.

The dataset contains the data used to plot all the graphs presented in the paper "Supplementary material to the paper: Thermo-fluid and economic performance of PCHEs in a high-temperature Thermal Energy Storage System coupled with an sCO₂ Brayton cycle"

The power of thermoelastic harvesting of low-grade waste heat: A question of timing the heat exchange

Data publication for the journal article entitled "The power of thermoelastic harvesting of low-grade waste heat: A question of timing" by Bruno Neumann, Giovanna Jocobi, Ali Izadi, Andreas Henschke and Sebastian Fähler

Data publication: Formation of twin compact stars in low-mass X-ray binaries. Implications for eccentric and isolated millisecond pulsar populations

Tabulated data for the evolution of masses, radii and orbits of accreting millisecond pulsars in binaries corresponding to functions displayed in the figures of the related publication.When using the data, please cite the publication S. Chanlaridis et al., Astron. Astrophys. 695, A16 (2025) and to this repository

Multiphase Python Repository by HZDR

The python package provides several routines and scripts required to operate the code and cases repositories containing additional code and set-ups for the open-source software released by the OpenFOAM Foundation. This includes among others utilities for pre- and post-processing of simulation cases, utilities to launch virtual environments containing the source code, and utilities to operate the continuous integration and continuous development environment in a self-hosted Gitlab instance

(Data set) Fermi-liquid behavior of non-altermagnetic RuO2

1) Data set of the figures in main text and supplementary - Originlab format (Origin Viewer can be used to open these files). 2) FPLO calculations for the representation of the nodal line

Data publication: Roadmap on Advanced/operando characterisation of solid state materials and devices for energy applications - Positron annihilation spectroscopy

Positron annihilation spectroscopy (PAS) is a precise probe of point defects in bulk and nanomaterials, e.g., thin films. Positrons localize predominantly in the neutral and negatively charged open volume defects, i.e., vacancies and their agglomerations, extended defects, pores. The time to the inevitable annihilation of the positron with electron depends on the local electron density and scales proportionally with the open volume size. In insulators containing pores, Positronium (Ps) formation is enabled, so that the lifetime of the resulting ortho-Ps population again scales proportionally with pore size. Employing mono-energetic positron beams enables the study of near-surface buried defects. Positrons pre-accelerated to a given kinetic energy are implanted into solids following the so-called Makhov distribution [Fig. 1b]. Once localized in a defect, the positron lifespan increases and the overlap of the positron density with the core electron density is reduced. As a consequence, the Doppler shift of annihilation gamma rays becomes smaller. These characteristics are measured using two major techniques, namely positron annihilation lifetime spectroscopy (PALS) and coincidence Doppler broadening spectroscopy (cDBS or cDB-PAS), respectively. The analysis of the positron lifetime spectra [Fig. 2a] enables a decomposition into exponential components characterized by lifetime (ti) and intensity (Ii), which can be translated into defect type/size and concentration. Whereas the shape analysis of the broadened 511 keV annihilation spectrum provides insights to positron annihilation with low momentum valence electrons and high momentum core electrons. The latter determines the local chemical environment of positron annihilation sites (Fig. 2b), which is relevant for characterization of fusion materials. Here we present the research data for figures 1b, 2a, and 2b

Multiphase Python Repository by HZDR

The python package provides several routines and scripts required to operate the code and cases repositories containing additional code and set-ups for the open-source software released by the OpenFOAM Foundation. This includes among others utilities for pre- and post-processing of simulation cases, utilities to launch virtual environments containing the source code, and utilities to operate the continuous integration and continuous development environment in a self-hosted Gitlab instance