About: Détecteur à Grande Acceptance pour la Physique Photonucléaire Expérimentale

An Entity of Type: Research100636921, from Named Graph: http://dbpedia.org, within Data Space: dbpedia.org

DAPHNE (Détecteur à Grande Acceptance pour la Physique Photonucléaire Expérimentale) was designed by the department of the Commissariat à l'Energie Atomique, in collaboration with the Istituto Nazionale di Fisica Nucleare. The original purpose of the detector was to explore the quantum chromodynamics (QCD) properties of nucleons (i.e. protons and neutrons). To explore these properties, excitation states of the nuclei require to be measured (e.g. Delta baryons, symbol Δ). These excited states of nucleons decay via the emission of light mesons such as pions (π), eta mesons (η) or kaons (K). Various models exist that describe the correlation between the observed reactions, the excited states and QCD.

thumbnail
Property Value
dbo:abstract
  • DAPHNE (Détecteur à Grande Acceptance pour la Physique Photonucléaire Expérimentale) was designed by the department of the Commissariat à l'Energie Atomique, in collaboration with the Istituto Nazionale di Fisica Nucleare. The original purpose of the detector was to explore the quantum chromodynamics (QCD) properties of nucleons (i.e. protons and neutrons). To explore these properties, excitation states of the nuclei require to be measured (e.g. Delta baryons, symbol Δ). These excited states of nucleons decay via the emission of light mesons such as pions (π), eta mesons (η) or kaons (K). Various models exist that describe the correlation between the observed reactions, the excited states and QCD. DAPHNE was built to observe charged light mesons from the decay of excited nucleon states. The excitation of nuclei can be done with either pion scattering, or real photon scattering on the nucleon. Real photon scattering has the advantage that the first vertex can be cleanly described by the well known quantum electrodynamics (QED), while for the pion scattering at least two strong interaction vertices exist that require much more effort from models. The detector was used by the Commissariat à l'Énergie Atomique in– Saclay, France (accelerator , 19871990) and the in Mainz, Germany (accelerator MAMI, 1990–2003). (en)
dbo:thumbnail
dbo:wikiPageID
  • 5788125 (xsd:integer)
dbo:wikiPageLength
  • 5060 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID
  • 1018569120 (xsd:integer)
dbo:wikiPageWikiLink
dbp:wikiPageUsesTemplate
dcterms:subject
rdf:type
rdfs:comment
  • DAPHNE (Détecteur à Grande Acceptance pour la Physique Photonucléaire Expérimentale) was designed by the department of the Commissariat à l'Energie Atomique, in collaboration with the Istituto Nazionale di Fisica Nucleare. The original purpose of the detector was to explore the quantum chromodynamics (QCD) properties of nucleons (i.e. protons and neutrons). To explore these properties, excitation states of the nuclei require to be measured (e.g. Delta baryons, symbol Δ). These excited states of nucleons decay via the emission of light mesons such as pions (π), eta mesons (η) or kaons (K). Various models exist that describe the correlation between the observed reactions, the excited states and QCD. (en)
rdfs:label
  • Détecteur à Grande Acceptance pour la Physique Photonucléaire Expérimentale (en)
owl:sameAs
prov:wasDerivedFrom
foaf:depiction
foaf:isPrimaryTopicOf
is dbo:wikiPageRedirects of
is dbo:wikiPageWikiLink of
is foaf:primaryTopic of
Powered by OpenLink Virtuoso    This material is Open Knowledge     W3C Semantic Web Technology     This material is Open Knowledge    Valid XHTML + RDFa
This content was extracted from Wikipedia and is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License