standard model of Big Bang cosmology

GPTKB entity

Statements (50)
Predicate Object
gptkbp:instanceOf gptkb:cosmology
gptkbp:alsoKnownAs gptkb:Lambda-CDM_model
gptkbp:assumes gptkb:cosmology
homogeneity and isotropy of the universe
gptkbp:basedOn gptkb:general_relativity
gptkb:Friedmann_equations
gptkbp:compatibleWith matter-antimatter asymmetry
initial conditions of the universe
nature of dark energy
nature of dark matter
gptkbp:describes evolution of the universe
gptkbp:explains gptkb:cosmic_redshift
abundance of light elements
cosmic acceleration
origin of cosmic structure
https://www.w3.org/2000/01/rdf-schema#label standard model of Big Bang cosmology
gptkbp:includes gptkb:cosmological_constant
gptkb:hot_Big_Bang
dark energy
dark matter
cosmic inflation
baryonic matter
gptkbp:isStandardSince late 20th century
gptkbp:parameter gptkb:Hubble_constant
baryon density
curvature parameter
dark energy density
matter density
spectral index
reionization optical depth
gptkbp:predicts gptkb:cosmology
expansion of the universe
primordial nucleosynthesis
large-scale structure formation
recombination epoch
formation of first stars and galaxies
structure formation from quantum fluctuations
universe is 13.8 billion years old
universe is flat or nearly flat
gptkbp:replacedBy gptkb:steady_state_theory
gptkbp:supportedBy cosmic microwave background measurements
large-scale structure surveys
supernova observations
observations of distant galaxies
gptkbp:testedBy gptkb:Sloan_Digital_Sky_Survey
gptkb:WMAP_satellite
gptkb:Planck_satellite
Type Ia supernova surveys
gptkbp:bfsParent gptkb:Lambda-CDM_model
gptkbp:bfsLayer 5