vDiffraction: A serious game about diffraction and crystals
#### This game is a fun way to discover the world of crystals and their symmetries through diffraction.
Crystals are all around us: in our environment (rocks and minerals, etc), in our bodies (sugar, bones, gallstones, etc.) and in technology (metals and alloys, silicon and quartz used for...
Scientific topics: crystallography
Keywords: game, diffraction, crystal diffraction, software
Resource type: game
vDiffraction: A serious game about diffraction and crystals
https://www.ill.eu/users/support-labs-infrastructure/software-scientific-tools/vdiffraction
https://pan-training.eu/materials/vdiffraction-a-serious-game-about-diffraction-and-crystals
#### This game is a fun way to discover the world of crystals and their symmetries through diffraction.
Crystals are all around us: in our environment (rocks and minerals, etc), in our bodies (sugar, bones, gallstones, etc.) and in technology (metals and alloys, silicon and quartz used for microelectronics, etc.). By successively discovering the diffraction of X-rays, neutrons and electrons, scientists in the twentieth century threw the door to the microscopic world wide open by demonstrating that crystals are made up of atoms and molecules and explaining their structure.
Crystals are characterised by the fact that their constituents are arranged in a highly ordered structure. This internal order and its symmetry is clearly visible in the diffraction patterns produced by any crystal. It is this symmetry which is also gives crystals their often amazing shapes, making them highly prized by rockhounds.
Whether you are a senior scientist, a student, or just curious about science, vDiffraction is a serious game that will let you try your hand at crystal diffraction so that you can begin to understand how scientists identify the symmetry characteristics of a crystal. This is the first, crucial step towards understanding the atomic and molecular structure of a crystalline material, in other words what type of atoms and molecules make up the crystal and how they are organised.
crystallography
game, diffraction, crystal diffraction, software
ExPaNDS D3.2: Ontologies v1.0
We present ontologies for the domain of photon and neutron (PaN) science. With the primary goal of supporting PaN FAIR data catalogue services, we have developed three ontologies: PaN experimental techniques (PaNET), an ontology of NeXus definitions (NeXusOntology), and a semantic integration...
Keywords: expands, ontology, EOSC, Photon science, experimental techniques, Neutron science, deliverable, D3.2, wp3-ExPaNDS
Resource type: Document
ExPaNDS D3.2: Ontologies v1.0
https://doi.org/10.5281/zenodo.4806026
https://pan-training.eu/materials/expands-d3-2-ontologies
We present ontologies for the domain of photon and neutron (PaN) science. With the primary goal of supporting PaN FAIR data catalogue services, we have developed three ontologies: PaN experimental techniques (PaNET), an ontology of NeXus definitions (NeXusOntology), and a semantic integration ontology for the PaN domain (PaNmapping). The ontologies are presented as initial versions, supported by community development workflows. The work represents deliverable D3.2 of the Horizon 2020 ExPaNDS project.
expands, ontology, EOSC, Photon science, experimental techniques, Neutron science, deliverable, D3.2, wp3-ExPaNDS