Growth of structure in an expanding universe The Jeans length Dark matter Large scale structure simulations. Large scale structure
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1 Modern cosmology : The Growth of Structure Growth of structure in an expanding universe The Jeans length Dark matter Large scale structure simulations effect of cosmological parameters Large scale structure data galaxy surveys cosmic microwave background 1 Large scale structure simulations Simple theory only adequate for small changes in density Need big changes (e.g. ρ univ. ~ kg m, ρ galaxy ~ kg m ) Therefore use numerical simulations input cosmological parameters evolve using general relativity may include only dark matter or dark matter + gas 2 1
2 Information from simulations strength of clustering on different scales compare with galaxy surveys evolution of clustering Simulations compare with ages of structures such as galaxies and clusters cold dark matter + Λ nothing neutrino k Simulations 4 2
3 Large scale structure data Galaxy surveys pencil beam e.g. Lyman α lines in quasar spectrum slice of sky e.g. 2dF galaxy redshift survey whole sky (or large piece thereof) e.g. Sloan Digital Sky Survey 5 Lyman α forest Study distribution of neutral hydrogen along particular lines of sight potential information on clustering, metallicity, ionisation level, etc., at redshifts up to 6 or more but systematic errors are difficult to control Matteo Viel, 2004 Meiksin, Bryan, Machacek, MNRAS 27 (2001) 296 6
4 Sloan Digital Sky Survey Dedicated 2.5-m telescope equipped with 120 megapixel camera and two multi-object spectrographs Imaged 8400 square degrees of sky spectra of galaxies, quasars, stars 7 SDSS Galaxy Map Slice of SDSS survey around celestial equator 1.25 < δ < Galaxies colour coded by stellar population red = old 8 4
5 Results Sensitive to Ω m H 0, which is a different combination from nucleosynthesis Analysis is similar to CMB (see later), but expected shape differs Best results obtained by combining redshift surveys with WMAP 9 Analysis of survey data Survey data typically produce maps How do we analyse these? they have finite resolution they may not cover the whole sky we probably don t care about the actual locations of hot and cold spots we want to look at strength of variation and characteristic size 10 5
6 The power spectrum Consider CMB data, i.e. map of temperature fluctuations δt across sky expand in spherical harmonics: ( ) l δt θ, φ = ( θ, φ) a lm Y lm T l= 0 m= l consider correlation between pairs of points separated by angle θ: δt δt C( θ ) = ( nˆ ) ( nˆ ) T T nˆ nˆ = cosθ by applying the spherical harmonic expansion this can be expressed as a sum of Legendre polynomials: 1 C( θ ) = ( 2l + 1) C l P l ( cosθ ) 4π l= 0 11 The power spectrum Parameter describing characteristics of map is the coefficient C l l( l +1) customary to plot T Cl T vs l 2π this is the contribution per logarithmic interval in l to the total temperature fluctuation δt the multipole number l gives the angular scale: θ ~ 180 /l 12 6
7 The power spectrum D galaxy surveys are analysed in a similar way expand as Fourier series V ik r δ ( r) = δke d k (2π ) where each Fourier component δ k is a complex number construct power spectrum using mean square amplitude P 2 ( k) = δk Will Percival et al., MNRAS 401 (2010) Conclusion Large scale structure is very sensitive to cosmological parameters cold vs hot dark matter, Λ, etc. 2D or D maps can be analysed by expanding as spherical harmonics or Fourier series Most significant contributors: galaxy surveys (especially SDSS) and CMB 14 7
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