Download - CMB
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CMB
Early timesEarly times
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Galaxies and clusters of galaxies
TodayToday
NGC 1512
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Structure formation : gravity at playStructure formation : gravity at playStructure formation : gravity at playStructure formation : gravity at play
N-body simulations (Kravtsov & Klypin)
43 M
pc
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Structure formation : a rapid primerStructure formation : a rapid primerStructure formation : a rapid primerStructure formation : a rapid primer
• Basic ingredients– Matter conservation (continuity)
– Momentum conservation (Euler)
– Gravity (Poisson equation)
– Expansion of the universe (H)
• Density Contrast
• Fourier Transform
( ) FT[ ( , )]k t r t
( , ) ( )( , ) 1
( )
r t tr t
t
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Structure formation : gravity vs. pressureStructure formation : gravity vs. pressureStructure formation : gravity vs. pressureStructure formation : gravity vs. pressure
• “Cosmic” Oscillators
22 0k k k kH
Damping due to expansion
(comoving)
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Structure formation : gravity vs. pressureStructure formation : gravity vs. pressureStructure formation : gravity vs. pressureStructure formation : gravity vs. pressure
• “Cosmic” Oscillators
• Competition between gravity and pressure
22 0k k k kH
2 22
24s
k N
c kG
a
Damping due to expansion
cs = sound speed
Pressure > gravity ωk2 > 0 : oscillations
Pressure < gravity ωk2 < 0 : density grows
Depends on scale!
(comoving)
Depends on expansion!
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Back to the CMB… : Temperature FluctuationsBack to the CMB… : Temperature FluctuationsBack to the CMB… : Temperature FluctuationsBack to the CMB… : Temperature Fluctuations
cmb cmb
( )( ) ~ ( , )
T n Tn r t
T
2.725 KT
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Quick fluctuation analysisQuick fluctuation analysisQuick fluctuation analysisQuick fluctuation analysis
• Fourier Transform on the Celestial Sphere
• Angular Power Spectrum Cl
0
( , ) ( , )l
mlm l
l m l
Ta Y
T
* ( , ) ( , )mlm l
Ta d Y
T
2
l lmC a
180~l
Sphericalharmonics
Cl : power in fluctuations of angular size θ
= FT ( ) ( ')l
T TC n n
T T
Weight ofeach mode
multipole where , 'n n
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180~l
Multipoles
All modes
l = 2
l = 4
l = 6
l = 8
l = 3
l = 5
l = 7
(Hin
shaw
et a
l.,
2007
)
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Harmonic multipole decomposition
(Clem Pryke, Chicago)
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CMB Power SpectrumCMB Power SpectrumCMB Power SpectrumCMB Power Spectrum
how much the temperature varies from point to point on the sky vs. the angular frequency l
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Basic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropies
Many contributions
Intrinsic “primordial”
Super-imposed “secondary”
Foregrounds “contaminants”
Cosmological
Local
Sunyaev-Zel’dovich effect
Last Scattering
Line-of-sight
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Basic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropies
Many contributions
Intrinsic “primordial”
Super-imposed “secondary”
Foregrounds “contaminants”
Cosmological
LocalLine-of-sight
Last Scattering
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Basic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropiesBasic physics of CMB anisotropies
Many contributions
Primordial anisotropies
Intrinsic “primordial”
Super-imposed “secondary”
Foregrounds “contaminants”
Cosmological
LocalLine-of-sight
Last Scattering
LS
1( ) ( ) ( ) . ( )
3 r r
Tn n n n v n
T
Densityfluctuations
Dopplereffect
Gravitationalredshift
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Acoustic peaksAcoustic peaksAcoustic peaksAcoustic peaks
• “Equation of motion” for Θ = ΔT/T (comoving coord.)
• Conformal time
• Effective “mass”
• Pulsation
22
eff eff3
cm k m g
where dt
a
= comoving particle horizon
eff
31 where
4bm R R
sound
eff3
kckc
m
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Step by step…Step by step…Step by step…Step by step…
• Consider g = 0, and R << 12 2
s eq0 ( ) cosk c ks
~3
ss c dwhere = distance reached by a
sound wave at time η
Rem : CMB s = scmb
• On large scales, kscmb<< 1
eq ( ) ~ plateau
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Step by step…Step by step…Step by step…Step by step…
• Consider g = 0, and R << 12 2
s eq0 ( ) cosk c ks
~3
ss c dwhere distance reached by a
sound wave at time η
• On smaller scales, kscmb>>1
cmb oscillationsnk s n
Rem : CMB s = scmb
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CMB CMB
(Wayne Hu, Chicago)
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Searching for scales on the skySearching for scales on the skySearching for scales on the skySearching for scales on the sky
• Luminosity distance
• Angular diameter distance
2 S
4L
Ld
F
(cf. Euclidean 1/d2 law)
LS : intrinsic luminosity of a source at z
F : meas. flux = observed lumin./surface
0 S S1L kd a f z FLRW space-time
phys
2 SS A A k
dSd d a f
d
Reminder : fk geometry
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Angular scales & Universe geometryAngular scales & Universe geometryAngular scales & Universe geometryAngular scales & Universe geometry
Spherical
Flat
Hyperbolic
θ
180~l
Sound horizon scale must appear in Cl
spectrum and probe geometry
Position of the Position of the first peak!first peak!
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The CMB & the geometry of the UniverseThe CMB & the geometry of the Universe
Actual data(Boom., 1998)
Simulatedmaps
Spherical Flat Hyperbolic
Typical angularscale : 1o
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Step by step…Step by step…Step by step…Step by step…
• Consider g = 0, and R << 1 (radiation dominates)2 2
s eq0 ( ) cosk c ks
~3
ss c dwhere = distance reached by a
sound wave at time η
• On small scales : damping
Silk dampingRem : CMB s = scmb
• Neutrino free streaming
• Silk damping : photon mean free path viscosity, photon drag
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More effects…More effects…More effects…More effects…
• Effect of gravity, g 0 Shifts oscillation zero point :
photons have to climb out of potential wells
• Baryon loading, R ~ 1 at CMB sound speed decreased, oscillation amplitude increased,
adds inertia to oscillations
• Doppler term : Velocity : π/2 out of phase modulation
11 3 cos
3
TR ks R
T
Compression & rarefaction asymmetry
Odd peaks higher, even peaks lower
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Degeneracy in the CMBDegeneracy in the CMB
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Cosmological parameters & degeneraciesCosmological parameters & degeneraciesCosmological parameters & degeneraciesCosmological parameters & degeneracies(W
MA
P team
)
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Curing the degeneracies?
Combining independant
data !
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CMB – The ultimate satellite : PlanckCMB – The ultimate satellite : Planck
Unequalledresolution
(0.08 degrees)
Will measureclearly the
polarisationpolarisation
Launched14 May 2009 !
HFI : J.-L. PugetHFI : J.-L. Puget
LFI : N. Mandolesi
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Kourou, French Guiana
26 February 2009
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