Statements (72)
Predicate | Object |
---|---|
gptkbp:instanceOf |
scientific infrastructure project
|
gptkbp:budget |
$815 million
|
gptkbp:country |
gptkb:United_States
|
gptkbp:director |
gptkb:James_Kerby
|
gptkbp:expectedCompletion |
2024
|
gptkbp:facilityId |
gptkb:Advanced_Photon_Source
|
gptkbp:field |
synchrotron light source
|
gptkbp:fullName |
gptkb:Advanced_Photon_Source_Upgrade_Project
|
gptkbp:goal |
enable new scientific capabilities
increase brightness of X-ray beams |
https://www.w3.org/2000/01/rdf-schema#label |
APS Upgrade Project
|
gptkbp:location |
gptkb:Argonne_National_Laboratory
|
gptkbp:networkUpgrade |
accelerator and beamline upgrade
|
gptkbp:parentOrganization |
gptkb:U.S._Department_of_Energy
|
gptkbp:startDate |
2019
|
gptkbp:studiedBy |
gptkb:additive_manufacturing
agriculture archaeology biochemistry biology biomaterials biophysics catalysis chemistry climate science crystallography energy research engineering environmental engineering environmental science food science magnetism materials science metallurgy microelectronics mineralogy paleontology pharmaceuticals physics planetary science semiconductors structural biology superconductivity surface science toxicology earth science battery research drug discovery energy storage polymers nanoscience environmental monitoring environmental remediation medical imaging environmental chemistry forensics petrology thin films soft matter geoscience quantum materials solar cells fuel cells correlated electron systems protein structure determination cultural heritage science environmental toxicology high-pressure science |
gptkbp:technology |
multi-bend achromat lattice
|
gptkbp:website |
https://www.aps.anl.gov/APS-Upgrade
|
gptkbp:bfsParent |
gptkb:Advanced_Photon_Source
|
gptkbp:bfsLayer |
5
|