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Cosmology I

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Cosmic microwave background (CMB) Structure formation. Dark matter, dark energy ... Dicke & Peebles in Princeton heard about the result theoretical explanation: ... – PowerPoint PPT presentation

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Title: Cosmology I


1
Cosmology I II
  • Expanding universe
  • Hot early universe
  • Nucleosynthesis
  • Baryogenesis
  • Cosmic microwave background (CMB)
  • Structure formation
  • Dark matter, dark energy
  • Cosmic inflation

2
UNITS, NOTATION
Energy mass GeV Time length 1/GeV
c h kB 1
Metric signature (1,-1,-1,-1)
Planck mass MP 1.22 ? 1019 GeV Newtons
constant G 1/ MP 1 eV 11000 K 1 s 1/MeV
2
3
Quantities, observables
  • Hubble rate expansion rate of the universe H
  • Energy density of particle species x ?x E/V
  • Number density nx N/V
  • Relative He abundance Y 4He/(H4He)
  • Baryon number of the universe (nB-nB)/n?
  • Scattering cross section ? 1/energy2, (decay)
    rate ? energy ?n


4
(cont)
  • CMB temperature T(?) T0 ?T(?) (CMB power
    spectrum)
  • Galaxy-galaxy correlators (Large scale
    structure LSS)
  • Distant supernova luminosities

5
The starting point
  • expansion of the universe is very slow (changes
    adiabatic) H ltlt scattering rates
  • Thermal equilibrium ( some deviations from this
    is where the interesting physics lies)
  • Need statistical physics, particle physics, some
    general relativity

6
History of cosmology
  • General theory of relativity 1916
  • First mathematical theory of the universe
  • Applied by Einstein in 1917
  • Problem thought that universe Milky Way ?
    overdense universe ? must collapse ? to
    recover static universe must introduce
    cosmological constant (did not work)

7
Theory develops
  • Willem de Sitter 1917
  • Solution to Einstein equations, assuming empty
    space (exponential) expansion (but can be
    expressed in stationary coordinates)
  • Alexander Friedmann 1922
  • Solution to Einstein eqs with matter no static
    solution
  • Universe either expanding or collapsing

8
Observations
  • Henrietta Leavitt 1912
  • Cepheids luminosity and period related ?
    standard candles
  • Hubble 1920s
  • 1923 Andromeda nebula is a galaxy (Mount Wilson
    100 telescope sees cepheids)
  • 1929 redshifts of 24 galaxies with independent
    distance estimates ? the Hubble law v Hd

9
  • Georges Lemaitre 1927 primeaval atom
  • Cold beginning, crumbling supernucleus (like
    radioactivity)
  • George Gamow 1946-1948
  • Hot early universe (nuclear physics the Sun)
  • Alpher, Gamow, Herman 1948 relic photons with a
    temperature today of 5 K
  • Idea was all but forgotten in the 50s

10
Demise of the steady state
  • Fred Hoyle 1950s
  • steady state theory the universe is infinite
    and looks the same everywhere
  • New matter created out of vacuum ? expansion
    (added a source term into Einstein eqs.)
  • Cambridge 3C galaxy survey 1959
  • Radiogalaxies do not follow the distribution
    predicted by steady state theory

11
Rediscovery of Big Bang
  • Penzias Wilson 1965 Bell labs
  • Testing former Echo 6 meter radioantenna to use
    it for radioastronomy (1964)
  • 3 K noise that could not be accounted for
  • Dicke Peebles in Princeton heard about the
    result ? theoretical explanation redshifted
    radiation from the time of matter-radiation
    decoupling (recombination) CMB
  • Thermal equilibrium ? black body spectrum
  • Isotropic, homogenous radiation however,
    universe has structure ? CMB must have spatial
    temperature variations of order 10-5 K

12
Precision cosmology
  • COBE satellite 1992
  • Launch 1989, results in 1992
  • Scanned the microwave sky with 2 horns and
    compared the temperature differences
  • Found temp variations with amplitude 10-5 K,
    resolution lt 7O
  • Balloon experiments end of 90s
  • Maxima, Boomerang first acoustic peak discovered
  • LSS surveys
  • 2dF etc 90s ongoing Sloan Digital Sky Survey
    (SDSS)

13
  • WMAP 2003
  • High precision spectrum of temperature
    fluctuations
  • Determination of all essential cosmological
    parameters with an accuracy of few
  • Big bang nucleosynthesis 1980s ?
  • H, He, Li abundances (N?, ?)
  • Planck Surveyor Mission 2007 (Finland
    participates)

14
Surprises/problems
  • Dark matter (easy)
  • Dark energy ( cosmological constant, very hard)
  • Cosmic inflation (great, but how?)
  • Baryogenesis (how?- Standard Model not enough)
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