Content Providers
40 content providers found
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DAPHNE4NFDI
DAPHNE4NFDI focuses on research with photons and neutrons at large-scale research facilities. The properties of photons and neutrons allow us to find out where atoms are and how they move - in materials, new materials, thin films, even at very low temperatures or high pressures. This makes it...
0 events (28 past events)DAPHNE4NFDI https://www.daphne4nfdi.de https://pan-training.eu/content_providers/daphne4nfdi DAPHNE4NFDI focuses on research with photons and neutrons at large-scale research facilities. The properties of photons and neutrons allow us to find out where atoms are and how they move - in materials, new materials, thin films, even at very low temperatures or high pressures. This makes it possible to see the tiniest cracks and pores in a turbine blade, find tiny impurities in a semiconductor, determine the position of individual atoms in a protein molecule, and much more. Photon and neutron research therefore includes a wide range of scientific disciplines. There are more than 5500 scientists across Germany generating a data volume of 28 petabytes per year. The large amount of data presents us with some challenges: The data is often user-specific, a wide variety of software is used for analysis, and data cannot be easily shared. There is also a great need for fast, high-level data analysis. The data should also be stored in a meaningful way and be reusable. The main goal of DAPHNE is to make data from photon and neutron experiments "FAIR", thereby making scientific work more efficient and gaining more knowledge from the data. 1. Improve metadata capture through consistent workflows supported by user-driven online logbooks that are linked to the data collection, thus enabling a richer capture of information about the experiments than is currently possible; 2. Establish a community repository of processed data, new reference databases and analysis code for published results, linked, where possible, to raw data sources, to sustainably improve access to research data and enable data and software re-use; 3. Develop, curate and deploy user-developed analysis software on facility computing infrastructure so that ordinary users can benefit from and repeat the analysis performed by leading power user groups through common data analysis portals. The consortium thus aims at a national research data infrastructure along a process chain from the proposal, the experiment, data recorded, stored, analysed and interpreted. This is a very ambitious endeavor. But the consortium already builds on a very strong experience with the IT centres at the large-scale facilities, many activities in data analysis, data catalogues and repositories at the universities and research institutes and the development of metadata standards and quality control. DAPHNE4NDFI wants to bundle all these activities. Hence, DAPHNE4NFDI consortium consists of experts from the photon (KFS) and neutron community (KFN), experts from the different science fields and techniques (diffraction, spectroscopy, imaging, etc.) at universities, research institutes and large scale facilities and strongly interacts among the user and scientists at large scale infrastructures as well as with other NFDI-consortia. /system/content_providers/images/000/000/032/original/0ab33ed2-fb1a-49dd-810e-3578511809d1.png?1670328547 -
ErUM-Data-Hub
The ErUM Data Hub is funded by the German Federal Ministry of Education and Research (BMBF) and involves stakeholders from all ErUM thematic areas. It takes up ideas from the scientific community and supports and coordinates their implementation. A further aim is to provide support in the...
0 events (26 past events)ErUM-Data-Hub https://erumdatahub.de https://pan-training.eu/content_providers/erum-data-hub The ErUM Data Hub is funded by the German Federal Ministry of Education and Research (BMBF) and involves stakeholders from all ErUM thematic areas. It takes up ideas from the scientific community and supports and coordinates their implementation. A further aim is to provide support in the transfer of developed solutions to new fields of application and to attract partners beyond ErUM, for example in the areas of energy, climate, sustainability and health. The activities of the ErUM-Data-Hub are divided into 4 work areas: * Networking * Exchange * Digital competencies * Communication /system/content_providers/images/000/000/066/original/Logo-Horizontal-7-300x150.png?1680706364 -
NEPHEWS project
NEPHEWS Project (NEutrons and PHotons Elevating Worldwide Science)
The project "NEutrons and PHotons Elevating Worldwide Science (NEPHEWS)" will deliver access to the world-class collective of Europe’s premiere open advanced neutron (N), synchrotron (SR) and free-electron laser (FEL)...
21 training materialsNEPHEWS project https://beamtime.eu/ https://pan-training.eu/content_providers/nephews-project NEPHEWS Project (NEutrons and PHotons Elevating Worldwide Science) The project "NEutrons and PHotons Elevating Worldwide Science (NEPHEWS)" will deliver access to the world-class collective of Europe’s premiere open advanced neutron (N), synchrotron (SR) and free-electron laser (FEL) complementary research infrastructures (RI), to promote curiosity driven excellence in research. In NEPHEWS the RI institutes in a novel approach jointly with their 40k+ user base of scientists through Users Organisations to provide a user-driven access program targeting new and non-expert communities, with a focus on Widening countries, Ukraine and Africa, a priority. The bottom-up User-to-User-oriented approach aims to build an integrated European RI landscape involving LEAPS and LENS consortia and their European scientific user communities. NEPHEWS will provide 135 twinning experiments, successful piloted in the CALIPSOplus project, and 451 user experiments across European RI facilities. New and non-expert users receive in-depth hands-on expert training in twinning research experiments with expert-users. These actions are complimented with support in virtual access, workshops, schools and proposal writing. All build expertise, foster collaborations, and widen user access across the European Research Area (ERA). NEPHEWS will specifically engage user and scientific communities of selected priority countries via outreach visits at universities, supporting political dialogue with national funding authorities (NFAs). To this end, NEPHEWS will deliver quantitative reporting of its actions and use country-specific quantitative data from novel community analysis methods. This will be the basis for an informed science policy when advocating to NFAs on the merits and benefits of sustained nationally funded user access to these RI. NEPHEWS brings a paradigm shift in the ERA RI landscape by direct involvement of the user communities to instigate wider access across the most advanced RI of the world. The integration is simultaneously realized for the FEL, SR and N communities across the ERA. More information about the NEPHEWS project at: - https://beamtime.eu/ - https://www.linkedin.com/company/104587056 /system/content_providers/images/000/000/104/original/10_NEPHEWS_logo-vertial.png?1744034160 -
SOLEIL
SOLEIL is located in France and is both an electromagnetic radiation source covering a wide range of energies (from the infrared to the x-rays) and a research laboratory at the cutting edge of experimental techniques dedicated to matter analysis down to the atomic scale, as well as a service...
15 training materials0 events (2 past events)SOLEIL https://www.synchrotron-soleil.fr/en https://pan-training.eu/content_providers/soleil SOLEIL is located in France and is both an electromagnetic radiation source covering a wide range of energies (from the infrared to the x-rays) and a research laboratory at the cutting edge of experimental techniques dedicated to matter analysis down to the atomic scale, as well as a service platform open to all scientific and industrial communities. In applied research, SOLEIL can be used in many various fields such as pharmacy, medicine, chemistry, petrochemistry, environment, nuclear energy, and the automobile industry, as well as nanotechnologies, micromechanics and microelectronics, and more… /system/content_providers/images/000/000/002/original/logo_0.png?1638889338 -
Heinz Maier-Leibnitz Zentrum (MLZ)
The Heinz Maier-Leibnitz Zentrum (MLZ) is a leading centre for cutting-edge research with neutrons and positrons. By offering a unique suite of high-performance neutron scattering instruments, scientists are encouraged and enabled to pursue state-of-the-art research in diverse fields as physics,...
0 events (12 past events)Heinz Maier-Leibnitz Zentrum (MLZ) https://mlz-garching.de/ https://pan-training.eu/content_providers/heinz-maier-leibnitz-zentrum-mlz The Heinz Maier-Leibnitz Zentrum (MLZ) is a leading centre for cutting-edge research with neutrons and positrons. By offering a unique suite of high-performance neutron scattering instruments, scientists are encouraged and enabled to pursue state-of-the-art research in diverse fields as physics, chemistry, biology, earth sciences, engineering or material science. Our mission is to offer substantial support to scientists from all over the world in addressing the grand challenges facing society today. The MLZ represents the cooperation between the Technische Universität München (TUM) and two research centres of the Helmholtz Association, namely Forschungszentrum Jülich and Helmholtz-Zentrum Hereon (former HZG) to exploit the scientific use of the Forschungs-Neutronenquelle Heinz Maier-Leibnitz in Garching near Munich. /system/content_providers/images/000/000/103/original/mlz-300x140.png?1744096021 -
Institut Laue-Langevin (ILL)
The Institut Laue-Langevin is an international research centre at the leading edge of neutron science and technology.
As the world’s flagship centre for neutron science, the ILL provides scientists with a very high flux of neutrons feeding some 40 state-of-the-art instruments, which are...
9 training materialsInstitut Laue-Langevin (ILL) https://www.ill.eu https://pan-training.eu/content_providers/institut-laue-langevin-ill The Institut Laue-Langevin is an international research centre at the leading edge of neutron science and technology. As the world’s flagship centre for neutron science, the ILL provides scientists with a very high flux of neutrons feeding some 40 state-of-the-art instruments, which are constantly being developed and upgraded. As a service institute, the ILL makes its facilities and expertise available to visiting scientists. Every year, about 1400 researchers from over 40 countries visit the ILL and 640 experiments selected by a scientific review committee are performed. Research focuses primarily on fundamental science in a variety of fields: condensed matter physics, chemistry, biology, nuclear physics and materials science, etc. The ILL also collaborates closely and at different levels of confidentiality with the R&D departments of industrial enterprises. ILL is funded and managed by France, Germany and the United Kingdom, in partnership with ten other countries. /system/content_providers/images/000/000/020/original/logo-neutrons-for-society-300x185.jpg?1638889800 -
Helmholtz-Zentrum Dresden-Rossendorf (HZDR)
The HZDR is a member of the Helmholtz Association of German Research Centres. As registered, non-profit institution supported by the authorities of the Federal Government and the Free State of Saxony the HZDR pursues interdisciplinary research in the fields of Energy, Health, and Matter.
The...
7 training materials0 events (3 past events)Helmholtz-Zentrum Dresden-Rossendorf (HZDR) https://www.hzdr.de/ https://pan-training.eu/content_providers/helmholtz-zentrum-dresden-rossendorf-hzdr The HZDR is a member of the Helmholtz Association of German Research Centres. As registered, non-profit institution supported by the authorities of the Federal Government and the Free State of Saxony the HZDR pursues interdisciplinary research in the fields of Energy, Health, and Matter. The eight scientific institutes are supported by four central departments: * Research Technoplogy * Information Services and Computing * Technical Services * Administration /system/content_providers/images/000/000/001/original/HZDR-Logo-in-Vertical-Format-%28jpg%29.jpg?1638889047 -
Deutsches Elektronen-Synchrotron (DESY)
DESY is one of the world’s leading accelerator centres based in Germany. Researchers use the large-scale facilities at DESY to explore the microcosm in all its variety – from the interactions of tiny elementary particles and the behaviour of new types of nanomaterials to biomolecular processes...
6 training materials0 events (5 past events)Deutsches Elektronen-Synchrotron (DESY) http://www.desy.de/ https://pan-training.eu/content_providers/deutsches-elektronen-synchrotron-desy DESY is one of the world’s leading accelerator centres based in Germany. Researchers use the large-scale facilities at DESY to explore the microcosm in all its variety – from the interactions of tiny elementary particles and the behaviour of new types of nanomaterials to biomolecular processes that are essential to life. The accelerators and detectors that DESY develops and builds are unique research tools. The facilities generate the world’s most intense X-ray light, accelerate particles to record energies and open completely new windows onto the universe. That makes DESY not only a magnet for more than 3000 guest researchers from over 40 countries every year, but also a coveted partner for national and international cooperations. Committed young researchers find an exciting interdisciplinary setting at DESY. The research centre offers specialized training for a large number of professions. DESY cooperates with industry and business to promote new technologies that will benefit society and encourage innovations. This also benefits the metropolitan regions of the two DESY locations, Hamburg and Zeuthen near Berlin. /system/content_providers/images/000/000/003/original/DESY.png?1638889118 -
MAX IV
MAX IV Laboratory is a Swedish national synchrotron laboratory that has operated as a user facility since 2016. It is the successor to MAX-lab, which was in operation between 1987 and 2015. MAX IV offers access to several beamlines that provide modern X-ray spectroscopy, scattering/diffraction,...
5 training materialsMAX IV https://www.maxiv.lu.se/ https://pan-training.eu/content_providers/max-iv MAX IV Laboratory is a Swedish national synchrotron laboratory that has operated as a user facility since 2016. It is the successor to MAX-lab, which was in operation between 1987 and 2015. MAX IV offers access to several beamlines that provide modern X-ray spectroscopy, scattering/diffraction, and imaging techniques to contribute to solving scientific questions in a wide range of areas. The beamlines are open to academia, research institutes, industry, and government agencies worldwide through the user access programmes. The X-ray light at MAX IV is produced by an accelerator complex comprising a linear accelerator and two storage rings (1.5 GeV and 3 GeV) for electrons. /system/content_providers/images/000/000/007/original/Unknown.png?1638889199 -
Diamond Light Source
Diamond Light Source is the UK’s national synchrotron. It works like a giant microscope, harnessing the power of electrons to produce bright light that scientists can use to study anything from fossils to jet engines to viruses and vaccines.
The machine accelerates electrons to near light...
4 training materialsDiamond Light Source https://www.diamond.ac.uk/Home/ https://pan-training.eu/content_providers/diamond-light-source Diamond Light Source is the UK’s national synchrotron. It works like a giant microscope, harnessing the power of electrons to produce bright light that scientists can use to study anything from fossils to jet engines to viruses and vaccines. The machine accelerates electrons to near light speeds so that they give off light 10 billion times brighter than the sun. These bright beams are then directed off into laboratories known as ‘beamlines’. Here, scientists use the light to study a vast range of subject matter, from new medicines and treatments for disease to innovative engineering and cutting-edge technology. Whether it’s fragments of ancient paintings or unknown virus structures, at the synchrotron, scientists can study their samples using a machine that is 10,000 times more powerful than a traditional microscope. Diamond is one of the most advanced scientific facilities in the world, and its pioneering capabilities are helping to keep the UK at the forefront of scientific research. /system/content_providers/images/000/000/006/original/csm_diamond_7ba8bd502e.png?1638889088