Statements (92)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:Accelerator
|
| gptkbp:advances |
accelerator technology
|
| gptkbp:analysis |
large data sets
|
| gptkbp:beam |
50 Te V per beam
|
| gptkbp:challenges |
complex engineering solutions
complex engineering requirements |
| gptkbp:collaboration |
gptkb:international_collaboration
universities multiple countries universities and research institutions open collaboration |
| gptkbp:collaborations |
global partnerships
global scientific collaboration |
| gptkbp:collider_features |
proton-proton collisions
high luminosity electron-positron collisions energy recovery linac multi-purpose experiments |
| gptkbp:community |
supportive
support from physicists worldwide |
| gptkbp:community_engagement |
outreach programs
|
| gptkbp:community_impact |
technological advancements
impact on global scientific community potential societal benefits |
| gptkbp:conference |
hosted events
host international conferences |
| gptkbp:construction_started |
2025
planned |
| gptkbp:cultural_significance |
international scientific collaboration
|
| gptkbp:design |
circular collider
|
| gptkbp:development |
advanced particle detection technologies
|
| gptkbp:discovery |
new particles
|
| gptkbp:economic_impact |
advancements in accelerator technology
spin-off technologies |
| gptkbp:educational_programs |
educational outreach programs
|
| gptkbp:educational_value |
training for scientists
|
| gptkbp:energy_capacity |
100 Te V
|
| gptkbp:environmental_concerns |
sustainability measures
|
| gptkbp:environmental_impact |
environmental studies conducted
|
| gptkbp:expected_luminosity |
10^35 cm^-2 s^-1
|
| gptkbp:funding |
gptkb:European_Union
government support international grants funding from member states estimated at 21 billion euros |
| gptkbp:future_experiments |
planned experiments
|
| gptkbp:future_prospects |
potential for new discoveries
advancements in fundamental research |
| gptkbp:has_luminosity |
10^35 cm^-2 s^-1
|
| https://www.w3.org/2000/01/rdf-schema#label |
Future Circular Collider
|
| gptkbp:impact |
particle physics community
exploration of fundamental questions |
| gptkbp:investigates |
addressing fundamental physics questions
|
| gptkbp:is_debated_in |
theoretical discussions
|
| gptkbp:length |
100 km
100 kilometers |
| gptkbp:location |
gptkb:Geneva,_Switzerland
|
| gptkbp:magnet_technology |
superconducting magnets
|
| gptkbp:notable_technology |
potential breakthroughs
|
| gptkbp:operational_challenges |
high operational costs
|
| gptkbp:particle_types |
gptkb:protons
heavy ions |
| gptkbp:partnership |
partnerships with technology companies
|
| gptkbp:power_source |
100 Te V
|
| gptkbp:project |
gptkb:High-Luminosity_LHC
design phase long-term project CERN management team |
| gptkbp:proposed_by |
gptkb:CERN
|
| gptkbp:public_interest |
high public interest
|
| gptkbp:publications |
numerous research papers
numerous research papers expected |
| gptkbp:purpose |
high-energy particle collisions
|
| gptkbp:research_focus |
gptkb:dark_matter
gptkb:Higgs_boson supersymmetry fundamental physics |
| gptkbp:research_opportunities |
new physics phenomena
|
| gptkbp:safety_measures |
extensive safety protocols
extensive safety assessments |
| gptkbp:scientific_goals |
explore dark matter
test theories beyond the Standard Model understanding the universe's origins investigate Higgs boson properties |
| gptkbp:scientific_instruments |
detectors
|
| gptkbp:scope |
large-scale scientific project
|
| gptkbp:sensor |
new experimental facilities
|
| gptkbp:successor |
gptkb:Large_Hadron_Collider
|
| gptkbp:technology |
superconducting magnets
|
| gptkbp:upgrades |
hadron collider
twin ring design |
| gptkbp:year |
2035
|