CMB Constraints on Fundamental...
Transcript of CMB Constraints on Fundamental...
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CMB Constraints on Fundamental Physics
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Lecture I
BASIC CMB & PARAMETERS
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Uniform...
Dipole...
Galaxy (z=0)
The Microwave Sky
COBE
Imprint left by primordial
tiny density inhomogeneities
(z~1000)..
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2121 )12(
2
1
PC
T
T
T
T
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Doroshkevich, A. G.; Zel'Dovich, Ya. B.; Syunyaev, R. A.
Soviet Astronomy, Vol. 22, p.523, 1978
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Wilson, M. L.; Silk, J., Astrophysical Journal, Part 1, vol. 243, Jan. 1, 1981, p. 14-25. 1981
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Bond, J. R.; Efstathiou, G.; Royal Astronomical Society, Monthly Notices (ISSN 0035-8711), vol. 226, June 1, 1987, p. 655-687, 1987
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Chung-Pei Ma, Edmund Bertschinger, Astrophys.J. 455 (1995) 7-25
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Hu, Wayne; Scott, Douglas; Sugiyama, Naoshi; White, Martin. Physical Review D, Volume 52, Issue 10, 15 November 1995, pp.5498-5515
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CMB anisotropies, C. Lineweaver et al., 1996 A.D.
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CMB anisotropies, A. Jaffe et al., 2001
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CMB anisotropies pre-WMAP (January 2003)
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WMAP 2003
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Next: Climbing to the Peak...
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Interpreting the Temperature angular power spectrum. Some recent/old reviews:
Ted Bunn, arXiv:astro-ph/9607088 Arthur Kosowsky, arXiv:astro-ph/9904102 Hannu Kurki-Suonio, http://arxiv.org/abs/1012.5204 Challinor and Peiris, AIP Conf.Proc.1132:86-140, 2009, arXiv:0903.5158
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CMB Anisotropy: BASICS
• Friedmann Flat Universe with 5 components: Baryons, Cold Dark Matter (w=0, always), Photons, Massless Neutrinos, Cosmological Constant.
• Linear Perturbation. Newtonian Gauge.
Scalar modes only.
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• Perturbation Variables:
CMB Anisotropy: BASICS
Key point: we work in Fourier space :
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CMB Anisotropy: BASICS
CDM:
Baryons:
Photons:
Neutrinos:
Their evolution is governed by a nasty set of coupled partial differential equations:
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Numerical Integration
- Early Codes (1995) integrate the full set of equations (about 2000 for each k mode, approx, 2 hours CPU time for obtaining one single spectrum).
COSMICS first public Boltzmann code http://arxiv.org/abs/astro-ph/9506070. - Major breakthrough with line of sight integration method with CMBFAST
(Seljak&Zaldarriaga, 1996, http://arxiv.org/abs/astro-ph/9603033). (5 minutes of CPU time)
- Most supported and updated code at the moment CAMB (Challinor, Lasenby, Lewis), http://arxiv.org/abs/astro-ph/9911177 (Faster than CMBFAST).
- Both on-line versions of CAMB and CMBFAST available on LAMBDA website.
Suggested homework: read Seljak and Zaldarriga paper for the line of sight integration.
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CMB Anisotropy: BASICS
CDM:
Baryons:
Photons:
Neutrinos:
Their evolution is governed by a nasty set of coupled partial differential equations:
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First Pilar of the standard model of structure formation:
0, kfD
',,',, kkFkfD
Standard model: Evolution of perturbations is passive and coherent.
Active and decoherent models of structure formation (i.e. topological defects see Albrecht et al, http://arxiv.org/abs/astro-ph/9505030):
Linear differential operator
Perturbation Variables
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Oscillations supporting evidence for passive and coherent scheme.
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Pen, Seljak, Turok, http://arxiv.org/abs/astro-ph/9704165 Expansion of the defect source term in eigenvalues. Final spectrum does’nt show any Feature or peak.
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Primary CMB anisotropies:
• Gravity (Sachs-Wolfe effect)+ Intrinsic (Adiabatic) Fluctuations
• Doppler effect
• Time-Varying Potentials (Integrated Sachs-Wolfe Effect)
CMB Anisotropy: BASICS
RkcR recsrec
cos)31(3
10
recsb kcvnrec
sin3
1
4
3 bR
dzHe
0
1
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Hu, Sugiyama, Silk, Nature 1997, astro-ph/9604166
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Projection A mode with wavelength λ will show up on an angular scale θ ∼ λ/R, where R is the distance to the last-scattering surface, or in other words, a mode with wavenumber k shows up at multipoles l∼k.
The spherical Bessel function jl(x) peaks at x ∼ l, so a single Fourier mode k does indeed contribute most of its power around multipole lk = kR, as expected. However, as the figure shows, jl does have significant power beyond the first peak, meaning that the power contributed by a Fourier mode “bleeds” to l-values different from lk. Moreover for an open universe (K is the curvature) :
l=30
l=60
l=90
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Projection
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1''
m
mmm
l
l
Data (and properly Computed theory)
See e.g. Corasaniti & Melchiorri Phys. Rev. D 77, 103507 (2008)
Pre-recombination effects from radiation (Early ISW) are suggested from WMAP5 !
Harmonic series
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How to get a bound on a cosmological parameter
DATA
Fiducial cosmological model: (Ωbh
2 , Ωmh2 , h , ns , τ, Σmν )
PARAMETER ESTIMATES
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Too many parameters ?
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Enrico Fermi:"I remember my friend Johnny von Neumann used to say, 'with four parameters I can fit an elephant and with five I can make him wiggle his trunk.‘”
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CMB Parameters
• Baryon Density
• CDM Density
• Distance to the LSS, «Shift Parameter» :
decz
Km
K
zz
dzy
0 23 )1()1(
0,sinh
0,
0,sin
ky
ky
ky
y
yh
hR
k
M 2
2
2hb
2hCDM
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Geometrical degeneracy
constRhh mb ,, 22
See, e.g. Efstathiou and Bond 1998
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02.002.1 Tot
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Inflationary parameters
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Inflationary parameters
3212 ,, PPnS
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Baryonic Abundance
3212
2 ,, PPhB
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200 400 600 800 1000 1200 1400
0,0
0,2
0,4
0,6
0,8
1,0
bh
2=0.034 n
s=1
bh
2=0.021 n
s=1
bh
2=0.021 n
s=0.7
l(l+
1)C
l
Multipole l
Up to the 2nd peak n and the baryon density are degenerate.
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