Decoupling (cosmology)

In cosmology, decoupling is a period in the development of the universe when different types of particles fall out of thermal equilibrium with each other.This occurs as a result of the expansion of the universe, as their interaction rates decrease (and mean free paths increase) up to this critical point.Photon decoupling is closely related to recombination, which occurred about 378,000 years after the Big Bang (at a redshift of z = 1100), when the universe was a hot opaque ("foggy") plasma.They can still be detected today, although they now appear as radio waves, and form the cosmic microwave background ("CMB").Decoupling occurred abruptly when the rate of Compton scattering of photonsAfter this photons were able to stream freely, producing the cosmic microwave background as we know it, and the universe became transparent., it is possible to show that photon decoupling occurred approximately 380,000 years after the Big Bang, at a redshift of[3] when the universe was at a temperature around 3000 K. Another example is the neutrino decoupling which occurred within one second of the Big Bang.By calculating the hypothetical time and temperature of decoupling for non-relativistic WIMPs of a particular mass, it is possible to find their density.[5] Comparing this to the measured density parameter of cold dark matter today of 0.222
Decoupling (disambiguation)Physical cosmologyBig BangUniverseAge of the universeChronology of the universeInflationNucleosynthesisGravitational wave (GWB)Microwave (CMB)Neutrino (CNB)Hubble's lawRedshiftExpansion of the universeFLRW metricFriedmann equationsInhomogeneous cosmologyFuture of an expanding universeUltimate fate of the universeLambda-CDM modelDark energyDark matterShape of the universeGalaxy filamentGalaxy formationLarge quasar groupReionizationStructure formationExperimentsBlack Hole Initiative (BHI)BOOMERanGCosmic Background Explorer (COBE)Dark Energy SurveyPlanck space observatorySloan Digital Sky Survey (SDSS)2dF Galaxy Redshift Survey ("2dF")Wilkinson Microwave AnisotropyProbe (WMAP)AaronsonAlfvénAlpherCopernicusde SitterEhlersEinsteinFriedmannGalileoHawkingHubbleHuygensKeplerLemaîtreMatherNewtonPenrosePenziasSchmidtSuntzeffSunyaevTolmanWilsonZeldovichList of cosmologistsDiscovery of cosmic microwavebackground radiationHistory of the Big Bang theoryTimeline of cosmological theoriescosmologydevelopment of the universeparticlesthermal equilibriummean free pathsphotonneutrinocosmic microwave backgroundcosmic neutrino backgroundrecombinationopaqueplasmahydrogenground statephotonshistory of the universeRecombination (cosmology)hydrogen atomsCompton scatteringmean free pathhorizon sizestream freelynumber densityThomson scatteringspeed of lightmatter-dominated eracosmic scale factorHubble constantNeutrino decouplingweak interactionsnon-relativisticdensitycold dark matterWouthuysen–Field couplingAddison-WesleyWestview PressBibcode