2005. 2. 16 - 19 changbom park (korea institute for advanced study)
DESCRIPTION
Workshop for Underground Experiments and Astroparticle Physics. Dark Matter and Clustering Motivation and Findings on Dark Matter from the Study of Structure Formation. Dark Matter. 2005. 2. 16 - 19 Changbom Park (Korea Institute for Advanced Study). DM. - PowerPoint PPT PresentationTRANSCRIPT
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Dark MatterDark Matter andand Clustering Clustering Motivation and Findings on Dark Matter Motivation and Findings on Dark Matter from the Study of Structure Formationfrom the Study of Structure Formation
2005. 2. 16 - 192005. 2. 16 - 19
Changbom Park Changbom Park (Korea Institute for Advanced Study)(Korea Institute for Advanced Study)
Workshop for Workshop for Underground Experiments and Astroparticle PhysicsUnderground Experiments and Astroparticle Physics
Dark MatterDark Matter
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Theme:Theme: Constraints on Constraints on DMDM from from Clustering of MatterClustering of Matter
Intimate relation between DM & structure formation bIntimate relation between DM & structure formation because DM has been the gravitationally dominant coecause DM has been the gravitationally dominant component of the material universe after tmponent of the material universe after teqeq, and h, and h
ave been controlling the structure formation.ave been controlling the structure formation.
DMDM
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What did we learn about DM frWhat did we learn about DM from om δδρρ & & CMB CMB ΔΔTT??
Matter compositionMatter composition ‘What’ and how much are there in our universe?‘What’ and how much are there in our universe?
Properties of each matter componentProperties of each matter component SpSpatial distribution (uniform, clustered)atial distribution (uniform, clustered)
Equ. of stateEqu. of state
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Evolution of Modern CosmologyEvolution of Modern Cosmology
1917Einstein’s static model
50s Gravitational Instability(GI)
Theory
29Expansion of space
22-24Friedmann’s models
29Big Bang model
1922External galaxies
70s BB+(γ,ν; baryon)+GI
65 Discovery of CMBR
LSSLSS CMBCMBRR
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92 LSS P(k)
Late70s Discovery of
LSS
70s BB+(γ,ν; baryon)+GI
92 COBE dT/T~10-5
mid80 SCDM Model BB+Inflation+(γ,ν; baryon, CDM)+GI
LSSLSS CMBCMBRR
80s CMBR dT/T < 10
-4
Dark matter 82Inflation
98 Accelerating expansion
00-03 WMAP Cℓ
2005 Concordance LCDM Model BB+Inflation+(γ,ν;
baryon, CDM; Dark E)+GI
Standard Model ruled out
SDSS JWST
Planck
?
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Energy Contents of the UniverseEnergy Contents of the Universe
Dark EnergyDark Energy (~73%; CC or dynamical?)(~73%; CC or dynamical?) + +
Non-baryonic Dark MatterNon-baryonic Dark Matter (~23%; cold)(~23%; cold) + +
Baryon invisibleBaryon invisible(~4%; MACHOs, ionized gas-IG-intr(~4%; MACHOs, ionized gas-IG-intr
acluster)acluster) + + visiblevisible (~0.3%; *s)(~0.3%; *s)
RadiationRadiation + +
NeutrinoNeutrino
Dark EnergyDark Energy
Dark MatterDark Matter
If primordial gaussian adiabatiIf primordial gaussian adiabatic, scale-invariant density fluctc, scale-invariant density fluct
uationsuations
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Motivation for Dark MatterMotivation for Dark Matter Existence through gravitational effects onlyExistence through gravitational effects only
Missing mass(baryon) Missing mass(baryon) non-baryonic non-baryonic DE DE
1. DM associated with galaxies & clusters 1. DM associated with galaxies & clusters [Ostriker..74; Einasto..74; Zwicky33][Ostriker..74; Einasto..74; Zwicky33]
[Dark halos] stability of galaxies, clusters of galaxies[Dark halos] stability of galaxies, clusters of galaxies
2. Baryonic DM2. Baryonic DM [brown dwarfs] *s with m<0.08Mo? [brown dwarfs] *s with m<0.08Mo?
[Why mass & L should be correlated?] *s with m>Mo 95% light but m<Mo >75% mass[Why mass & L should be correlated?] *s with m>Mo 95% light but m<Mo >75% mass
[Ly-a clouds at high z] not seen now[Ly-a clouds at high z] not seen now
[Nucleosynthesis] Omega_B=0.02~0.1 vs Omega_Bobs=~0.006 (solar neighborhood)[Nucleosynthesis] Omega_B=0.02~0.1 vs Omega_Bobs=~0.006 (solar neighborhood)
3. Non-baryonic DM3. Non-baryonic DM [Dynamical estimate of Omega] Omega_m=0.2~0.3[Dynamical estimate of Omega] Omega_m=0.2~0.3
[Inflationary scenarios and flat universe] Omega_tot=1[Inflationary scenarios and flat universe] Omega_tot=1
4. Growth of matter fluctuations & epoch of structure formation4. Growth of matter fluctuations & epoch of structure formation
Dark MatterDark Matter
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δδnownow ~ 1 and ~ 1 and δδ(t) ~ a(t) (t) ~ a(t)
in Einstein-de Sitter U in Einstein-de Sitter U
δδdecdec(theory) ~ 10(theory) ~ 10-3-3 but but
δδdecdec(obs) ~10(obs) ~10-5-5
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Consider DM which is NL at aConsider DM which is NL at aeqeq ! !
Structure formation starts at aStructure formation starts at aeqeq earlier than a earlier than adecdec
Baryon falls into the potential wells developed by DMBaryon falls into the potential wells developed by DM
aaeqeq aadecdec aa00
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During RDE : During RDE : δδmm frozen (total grow=2.5) – Meszaros effect frozen (total grow=2.5) – Meszaros effect
(for k ~ 0)(for k ~ 0)
Evolution of large scale density fluctuations in RDE & MDEEvolution of large scale density fluctuations in RDE & MDE
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Weighing Dark MatterWeighing Dark Matter
CMBR Power Spectrum CMBR Power Spectrum (z ~ 10(z ~ 1033))
– – Amplitude of Sachs-Wolfe effects: Amplitude of Sachs-Wolfe effects: ΩΩtottot ~1 ~1 – – Amplitude of PS at subhorizon scales : Amplitude of PS at subhorizon scales : ΩΩmm
– – First 3 Doppler peaks First 3 Doppler peaks : shape : shape ΩΩBB = 0.04 (agreement btw z=10 = 0.04 (agreement btw z=1033 & 10 & 1099!)!) location location ΩΩtot tot ~1 ~1 ΩΩmm
Ly-a forest clouds Ly-a forest clouds (z ~ 3)(z ~ 3)
– – abundance vs ionizing photons abundance vs ionizing photons ΩΩBB = 0.04 = 0.04
Galaxy clusters Galaxy clusters (z ~ 0)(z ~ 0)
– – X-ray emission of hot gas X-ray emission of hot gas ΩΩBB = 0.04 = 0.04
Dark MatterDark Matter
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Cosmic Microwave Background Cosmic Microwave Background AnisotropyAnisotropyInitial conditions Initial conditions Gravitational forcing, baryon loading Gravitational forcing, baryon loading
Initial phase of osc. the same for all modes Initial phase of osc. the same for all modes peaks & troughs as a function of wavenumber (Doppler peaks) peaks & troughs as a function of wavenumber (Doppler peaks)
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Shape of Shape of ΔΔT/T Power SpectrumT/T Power Spectrum
Super-horizon scale fluc.
SW effect
1 0.1r∼ H fluc. with initially coherent pha
ses
Oscillation & Doppler effec
t
Radial averaging &
radiation diffusion
Enhances the compressional phase !
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WMAP CMBR PSWMAP CMBR PS - baryon oscillation- baryon oscillation
||2
12
1aC lmll
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HotHot like babieslike babies?? ColdCold like old menlike old men??
Horizon of human knowledge is expandingHorizon of human knowledge is expandingSDSS V ~ 10SDSS V ~ 1022 CfA V ~ 10 CfA V ~ 10-4-4 Horizon V Horizon VSKorea ~ 10SKorea ~ 1022 Seoul MPA ~ 10 Seoul MPA ~ 10-4-4 Earth Surface Earth Surface
1986 CfA1986 CfA
2004 SDSS2004 SDSS
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HDMHDM?? CDMCDM??
Clustering differences Clustering differences * observed LSS* observed LSS * fingers-of-god* fingers-of-godEpoch of formation of Epoch of formation of
massive structures massive structures * 1* 1stst NL structures NL structures
CDMCDM : NR much before a : NR much before aeqeq
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HDMHDM
Real Real SpaceSpace
MatterMatter
HDMHDM
Z SpaceZ Space
MatterMatter
CDMCDM
Z SpaceZ Space
GalaxiesGalaxies
CDMCDM
Real Real SpaceSpace
GalaxiesGalaxies
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HDM?HDM? CDM? CDM?
Clusters of galaxiesClusters of galaxies mass functionmass function
High-z quasarsHigh-z quasarsGalaxy formation scenarioGalaxy formation scenario top-downtop-down (pancake) vs (pancake) vs bottom-upbottom-up (hierarchical) (hierarchical)
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Dark Dark EnergyEnergy
Dynamics at horizon scaleDynamics at horizon scaleAffected by matter compositionAffected by matter composition
Riess..04Riess..04
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ΛΛCDM SimulationCDM Simulation (Kim & Park 2004)
PMTree codePMTree code (Dubinski, Kim, Park 2003)
2048204833 mesh mesh (initial condition)
2048204833 (8.6G) (8.6G) CDM particles
1024 & 5632 h1024 & 5632 h-1-1MpcMpc size boxes
50 & 275 h50 & 275 h-1-1kpckpc force resolutions
PRECISION COMPARISON between PRECISION COMPARISON between cosmological models with the real universecosmological models with the real universe
(Park et al. 1994)(Tegmark et al.
2004)
Validity of CDMValidity of CDM Initial conditionsInitial conditions
Growth by gravitational instabilityGrowth by gravitational instability
weakly interacting & cold matterweakly interacting & cold matter
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LCDM1024LCDM1024
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Sloan Digital Sky Survey Sloan Digital Sky Survey
1. Imaging of North Galactic Cap1. Imaging of North Galactic Cap2.5m APO telescope with a mosaic CCD camera 2.5m APO telescope with a mosaic CCD camera u, g, r, i, z photometric bandpasses u, g, r, i, z photometric bandpasses selected for spectroscopy selected for spectroscopy
2. Spectroscopy2. Spectroscopy~~ 10 1066 galaxies & 10 galaxies & 1055 quasars with rms z-error quasars with rms z-error ~ 30 km/s~ 30 km/s
3. Samples3. SamplesMain Galaxies: Main Galaxies: rrPetPet < 17.77 ; Quasars < 17.77 ; Quasars
Luminous Red Galaxies (LRG): z<0.4 & >0.4 samplesLuminous Red Galaxies (LRG): z<0.4 & >0.4 samples
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3D 3D View View
of of SDSS SDSS
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HOD galaxy HOD galaxy formation formation
prescriptionprescription
3D 3D View View of a of a
mock mock SDSSSDSS
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Way to the FutureWay to the Future
Measure Measure ΩΩmm , , ΩΩBB & & ΩΩΛΛ ( ( ΩΩtottot ) more accurately ) more accurately Measure eq. of state of DE componentMeasure eq. of state of DE component Find the clustering of DM at small scalesFind the clustering of DM at small scales through CMB anisotropy, LSS clustering, LS peculiar velocity field, through CMB anisotropy, LSS clustering, LS peculiar velocity field, high-z distance indicator, gravitational lensinghigh-z distance indicator, gravitational lensing
New generation telescopesNew generation telescopes dedicated 8m, 30~100m optical, multi-dedicated 8m, 30~100m optical, multi-λλ New generation simulationsNew generation simulations matching the entire history of the universematching the entire history of the universe