Statements (238)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:physicist
|
| gptkbp:acquired |
gptkb:CERN's_Large_Hadron_Collider
|
| gptkbp:associated_with |
gptkb:musician
gptkb:spacecraft gptkb:political_movement gptkb:Standard_Model_of_particle_physics Higgs field electroweak symmetry breaking extra dimensions supersymmetry quantum gravity electroweak theory vacuum expectation value early universe conditions dark matter theories unification theories particle-antiparticle asymmetry mass hierarchy problem |
| gptkbp:charging_time |
gptkb:0
neutral |
| gptkbp:collaborations |
gptkb:ATLAS
gptkb:CMS ATLAS and CMS experiments |
| gptkbp:contributed_to |
electroweak symmetry breaking
mass of W and Z bosons mass generation mechanism universe's mass structure mass of bottom quark mass of other fermions mass of tau lepton mass of top quark |
| gptkbp:discovered_by |
gptkb:Nobel_Prize_in_Physics_2013
gptkb:2012 gptkb:CERN gptkb:Geneva,_Switzerland 5 sigma 5 sigma level |
| gptkbp:field |
gptkb:physicist
gptkb:spacecraft gptkb:military_officer high-energy physics |
| gptkbp:field_of_study |
gptkb:physicist
high-energy physics |
| gptkbp:financial_performance |
theoretical models
|
| gptkbp:first_appearance |
gptkb:2011
|
| gptkbp:has_achievements |
gptkb:physicist
gptkb:Standard_Model_of_particle_physics gptkb:Peter_Higgs |
| https://www.w3.org/2000/01/rdf-schema#label |
Higgs boson
|
| gptkbp:impact |
advancement of theoretical physics
inspired further research advances in particle physics |
| gptkbp:influence |
electroweak symmetry breaking
|
| gptkbp:influences |
gptkb:spacecraft
|
| gptkbp:interacts_with |
gptkb:gauge_bosons
gptkb:W_bosons gptkb:mythological_figure |
| gptkbp:is_a |
gptkb:scalar_boson
scalar particle fundamental particle |
| gptkbp:is_a_framework_for |
gptkb:physicist
gptkb:military_officer |
| gptkbp:is_associated_with |
electroweak symmetry breaking
|
| gptkbp:is_celebrated_in |
gptkb:Research_Institute
|
| gptkbp:is_essential_for |
mass of elementary particles
explains mass generation mechanism understanding mass in the universe validates the mechanism of electroweak symmetry breaking |
| gptkbp:is_observed_in |
gptkb:Large_Hadron_Collider
WW pairs ZZ pairs four leptons two photons CMS and ATLAS experiments |
| gptkbp:is_part_of |
gptkb:physicist
gptkb:Standard_Model_of_particle_physics |
| gptkbp:is_related_to |
mass of elementary particles
|
| gptkbp:is_sought_after_by |
LHC experiments
|
| gptkbp:isotopes |
gptkb:Goldstone_boson
gptkb:Higgsino gptkb:Standard_Model_particles gptkb:W_boson gptkb:Z_boson gptkb:photon gptkb:tau_lepton gptkb:bottom_quark gptkb:top_quark gptkb:observatory electron W and Z bosons muon gluon supersymmetric particles |
| gptkbp:key |
mass generation
|
| gptkbp:lifespan |
~10⁻²² seconds
|
| gptkbp:location |
LHC experiments
Tevatron experiments |
| gptkbp:mass |
gptkb:W_boson
gptkb:Z_boson 125 Ge V/c² approximately 125 Ge V/c² 125.1 Ge V/c² |
| gptkbp:mode |
gptkb:W_boson
gptkb:Z_boson gptkb:Higgs_to_four_leptons gptkb:Higgs_to_two_photons other particles Higgs to two W bosons Higgs to two Z bosons four leptons two photons various decay channels H → WW* H → ZZ* H → b b̄ H → invisible H → γ γ H → τ τ̄ WW, ZZ, γγ, ττ H → WW* → lνlν H → ZZ* → 4l H → Zγ H → bb̅ H → gg H → γγ H → ττ bottom quark-antiquark pair gluon pair tau lepton-antilepton pair two W bosons two Z bosons |
| gptkbp:named_after |
gptkb:Peter_Higgs
Higgs field |
| gptkbp:produced_by |
high-energy collisions
Higgs field proton-proton collisions high-energy particle collisions |
| gptkbp:proposed_by |
gptkb:Gerald_Guralnik
gptkb:Tom_Kibble gptkb:François_Englert gptkb:Robert_Brout gptkb:Carl_Hagen |
| gptkbp:receives_funding_from |
international collaborations
|
| gptkbp:recognizes |
gptkb:Large_Hadron_Collider
|
| gptkbp:related_concept |
gptkb:musician
gptkb:weapon gptkb:physicist gptkb:spacecraft gptkb:military_officer gptkb:political_movement gptkb:Big_Bang gptkb:bottom_quark gptkb:gauge_bosons gptkb:leptons gptkb:mass-energy_equivalence gptkb:scalar_boson gptkb:top_quark gptkb:big_bang_theory gptkb:Monarch gptkb:LHC gptkb:observatory gptkb:mythological_figure gptkb:nebula Feynman diagrams astrophysics gravity particle interactions baryogenesis high-energy physics Higgs field quantum fluctuations spontaneous symmetry breaking Lorentz invariance extra dimensions matter-antimatter asymmetry supersymmetry quantum electrodynamics quantum gravity strong force cosmic microwave background experimental physics fundamental forces W and Z bosons fundamental interactions gauge symmetry mass of W and Z bosons symmetry breaking mass generation experimental particle physics electromagnetic force elementary particles particle-antiparticle pairs electroweak theory neutrino masses electroweak interaction vacuum expectation value weak force early universe conditions particle astrophysics theoretical particle physics grand unification theory cosmological implications dark matter candidates universe expansion unification theories collider physics LHC collisions particle zoo energy scales mass generation mechanism mass hierarchy problem graviton |
| gptkbp:related_to |
gptkb:Standard_Model_of_particle_physics
|
| gptkbp:research |
gptkb:CMS_experiment
gptkb:ATLAS_experiment ongoing research collisions at high energy |
| gptkbp:role |
gives mass to other particles
|
| gptkbp:roll_rate |
gptkb:0
|
| gptkbp:significance |
gptkb:Nobel_Prize_in_Physics_2013
explains mass generation mechanism confirmed existence of Higgs field explains mass generation 5 sigma discovery level |
| gptkbp:strategic_importance |
explains fundamental forces
|
| gptkbp:technique |
direct detection
indirect detection |
| gptkbp:theory |
gptkb:Standard_Model_of_particle_physics
gptkb:1964 2012 discovery |
| gptkbp:type |
gptkb:scalar_boson
|
| gptkbp:width |
~4.1 Me V
approximately 4.1 Me V |
| gptkbp:year |
gptkb:1964
|
| gptkbp:year_created |
gptkb:2012
July 4, 2012 |
| gptkbp:bfsParent |
gptkb:physicist
|
| gptkbp:bfsLayer |
2
|