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000643581 041__ $$aEnglish
000643581 1001_ $$0P:(DE-H253)PIP1015756$$aNentwich, Melanie$$b0$$eCorresponding author$$udesy
000643581 1112_ $$aDAPHNE4NFDI TA1 Meeting$$cGarching$$d2026-01-12 - 2026-01-14$$wGermany
000643581 245__ $$aImproving PaNET – The ontology of Photon and Neutron Experimental Techniques
000643581 260__ $$c2026
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000643581 520__ $$aIn order to build a comprehensive understanding of all kinds of materials, the Photon and Neutron (PaN) community has been developing an increasing portfolio of experimental techniques (ET). These techniques share similarities including physical processes, experimental probes, functional dependencies, or purposes. This intricate web of techniques benefits from organisation into an ontology, known as the Photon and Neutron Experimental Technique (PaNET) ontology.We aim to highlight the existing and potential applications of this ontology. One notable application is the development of a beamline finder, as demonstrated for the PETRA III synchrotron. This tool aids users in identifying beamlines that align with their specific requirements of their scientific questions. The ontology facilitates this process by providing detailed information about available methods and techniques.The techniques listed in the ontology can be integrated into experimental datasets, thus enhancing the findability of datasets and improving data accessibility. Additionally, specifying the ET during a measurement can be used to trigger metadata schemas that are tailored to a specific technique. This ensures that the captured metadata is relevant and precise, enhancing the quality and utility of the data.We present an overview of the current status of these activities, with ideas on how you can benefit from them and the opportunities for direct involvement.
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000643581 7001_ $$0P:(DE-HGF)0$$aBusch, Sebastian$$b1
000643581 7001_ $$0P:(DE-H253)PIP1006282$$aMillar, Alexander Paul$$b2$$udesy
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000643581 9141_ $$y2026
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