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Recent Topics on Observational Recent Topics on Observational CosmologyCosmology
Naoshi Sugiyama
Division of Theoretical Astrophysics
National Astronomical Observatory, Japan
1. Introduction2. Cosmological Parameters3. Dark Matter4. Structure Formation5. Success of -CDM
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§1.Introduction
-Observational Cosmology-Observe the features of the present and past Universe•Contents
baryon, electron, photon, neutrino
dark matter = unknown particles?, MACHO?•Cosmological Parameter
, H0, q0, , age dynamics
•Structure
galaxies, cluster of galaxies, Large Scale Structure
Cosmic Microwave Background
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Extrapolate to the early Universe &
future Universe
•How was the Universe formed?
•What is the final fate of the Universe?
From the beginning to the end of the Universe based on observations
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Observations by HST key project
must determine distance to measure H0
Cepheid Variables by HST
calibrate 0-point of various methods < 25Mpc, 27gal
(1) Tully-Fisher relation for spiral galaxies
rotational vel. v vs absolute luminosity L
v = 220(L/L*)0.22 km/s
line width W
§2.Cosmological Parameters(1)Hubble Constant H0
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Sakai et al.astro-ph/9909269
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(2) Fundamental plane of elliptical galaxies
velocity dispersion , radius r, surface brightness I
r 1.33 i -0.83 Oegerle & Hoessel 91
(3) Super Nova(SN)
light curve shape vs abs. luminosity
(4) Surface Brightness Fluctuations
flux: I=Nf (N: # of stars, f: flux of a star)
fluctuation: =N1/2f
2/I=f L/d (L:luminosity, d:distance)
Combine (Mould ApJ. 529 (00)786)
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Cephaid distanceRiess, Press, Kirshner ApJ.473(96)88
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HST Key ProjectFerrarese et al.astro-ph/9909134
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Tully-Fisher: red, SNIa: green, SBF: blue, Fundamental plane: cyan Ferrares et al. astro-ph/9909134
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km/s/Mpc8720 H
The biggest uncertainty is from distance to LMC
=> determine the 0 point of Cepheide
Freedman et al. ApJ, astro-ph/0012376
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They assume
dLMC=50±3kpc
Other estimator of Cepheid 0 point
NGC 4258
7.2±0.3Mpc: orbital motion of disk
Herrnstein et al. Nature 400, 539 (99)
8.1±0.4Mpc: CepheidMaoz et al. Nature 401, 351 (99)
=> Cepheid has 12% error?
dLMC=44kpc? H0=80km/s/Mpc?
The devil is in the distanceThe devil is in the distance ©Bohdan Paczynski
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(2)Cosmic Age t0
Cosmic Age Crisis?
t0=2/3H0=8.1(0.8/h)Gyr. for M =1, =0
=1/H0=12(0.8/h)Gyr. for M =0 , =0
H0=100h[km/s/Mpc]
•measurement of cosmic age
HR diagram of Globular Cluster
t0 > tGC = 11 ±1.0±1.4Gyr Cassisi et al. A&AS134(1999)103
= 13 ±2Gyr Chaboyer, talk given in Feb. 2001
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high metal
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low metal
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Universe must be almost empty or
dominated by cosmological constant
Cutoff in White Dwarf Luminosity Function
t0 > tdisk = 10.5 (+2.5-1.5) Oswalt et al. Nature382(1996)692
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(3)Cosmological Constant
High z Super Novae Ia Search
luminosity distance 02
0 /])1()[1( HzqzzdL
q0 : deceleration parameter
If we measure the distance to high z objects, we can determine q0 or /3H0
2
Perlmutter et al. ApJ.517 (99) 565
42 galaxies 0.18<z<0.83 2/ M 0 q
1.02.06.08.0 M
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Two Loopholes:
•evolution of SN Ia
Are SNe at z~1 same as at z=0?
•Extinction by dust
light from SN may suffer significant damping by interstellar dust
Cosmology and these systematic can be
distinguished if once we see SNe at z>1
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Discovory of SNIa at z~1.7
SN 1997ff: photometrical redshift of SN, z=1.70.1
Gal, z=1.650.15
Riess et al. astro-ph/0104455
M 1/3 2/3
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SNAP(Supernova/Acceleration Probe)
2000 SNe/yr. 3yr. 0.1<z<1.7
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(4)Curvature of the Universe KMK=1 (Friedmann eq.)K-/(a0 H0)2
CMB anisotropies
Measure the Last Scattering Surface (LSS) (z=1000)
Projection from size on LSS to angle
•Observable quantites: Cl
angular power spectrum
l: multipole 1/
•Peak location of Cl :
corresponds to sound horizon
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Observer
Last Scattering
Flat Universe
三角形の内角の和 180 度Open Universe
内角の和< 180 度
Closed Universe
内角の和> 180 度
Observer
Observer
l1/
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Peak shifts to larger l (open)
smaller l (closed)
Small scaleLarge Scale
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Not only curvature BUT also
• Bh2
• Mh2
• n (initial power law index)
• T/S (tensor perturbation contribution)
• reionization after recombination
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Boomerang(Balloon) caltech, USSB, Rome
•long duration balloon: over 10 days
altitude 35km, 1milion m3 balloon
multi band: 90, 150, 240, 400GHz
•bolometric detectors cooled to 0.3K
•high resolution: 18’, 10.5’, 14’, 13’
•high sensitivity: 140, 170, 210, 2700Ks1/2
•256hours data, 2.5% of skyP.de Bernardls et al. Nature 404 (2000)955
A.Langee et al. astro-ph/0005004
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•Peak location llpeakpeak=197±6=197±6 (1 error)
c.f. 220 for adiabatic std 220 for adiabatic std =1 CDM=1 CDM
Flat CDM
with (SNe Ia)
0.88< 0.88< mm++ <1.12 <1.12
(95%CL)(95%CL)6 parameters fit
m(0.05-2), (0-1),h(0.5-0.8), n(0.8-1.3)
Bh2(0.013-0.025)
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MAXIMA-I (Balloon) UCB, Minnesota
•balloon: 3 hours (2 orders worse)
•multi band: 150, 240, 410GHz
•bolometric detectors cooled to 0.1K (factor 3 better)
•high resolution: 10’
•high sensitivity: 80Ks1/2 (factor 2 better)
Confirm BOOMERANG resultConfirm BOOMERANG result
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Jaffe et al.
Astro-ph/0007333
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More data coming on April 2001
• Boomerang reanalysis (astro-ph/0104460)
• MAXIMA reanalysis (astro-ph/0104459)
• DASI: interferometer at south pole (astro-ph/0104489)
Consistent with Flat, BBN Bh2 (=0.022) CDM model
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§3.Dark Matter
(1) Matter Density 0 (M)
重力的に測定する必要
光っている成分: * = 0.004
Scale によって違い: Large scale ほど大きい
(a) 銀河の flat rotation curve
flat rotation curve suggests the existence of
Dark Halo Component = Dark Matter Begman, Broeils, Sanders MNRAS 249,523 (1991)
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halo
diskgas
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(b) スケール依存性
N.Bhacall
astro-ph/9901076
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(2) Baryon Density B
•Takes place at T=1010 ~ 109K
•Function of baryon-photon number ratio
nB/n=2.68 10-8Bh2
これが大きいと反応早めに進む
n が p への崩壊が進んでいなかった
n が増え、結果 4He の量が増える
D, 3He は燃えかすなので、少なくなってしまう
Big Bang Nucleosynthesis
Review: Tytler et al. astro-ph/0001318
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反応の時間発展
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理論値と
観測値
Bh2 = 0.019±
0.0024(95%)
h=0.65
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D の Ly-
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Recent results of D-abundance
Pettini & Bowen astro-ph/0104474
QSO 2206-199
D/H=(1.65±0.35)10-5 very low value
D/H=(2.2±0.2)10-5
3 Damped Lyman Alpha system (higher column density) out of 6 measurements of D/H
Bh2 = 0.025±0.001(1)
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B << M
Non-Baryonic Dark Matter の存在!
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(3) Dark Matter の候補
( A) 素粒子論的候補
粒子の持つ運動エネルギーで分類
a) Cold Dark Matter (CDM)
熱浴から早い時期に離脱し運動エネルギー小
候補粒子
• 最も軽い超対称粒子 (LSP)
• axion
Weakly Interacting Massive Particles (WIMPs)
いまだかつて見つかっていない
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b) Hot Dark Matter (HDM)
熱浴からの離脱遅く、運動エネルギー小
候補粒子
• 質量のあるニュートリノ
必要な質量は super-Kamiokande の値より
はるかに大きい2eV]84.93/3[ hm
Super-Kは m2 ~ 10-3 eV2 2310 h
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CDM と HDM の違いは
宇宙の構造形成に大きく影響する
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(B) 天体的候補
•BBN を満足させるには Primordial Black Holeのみ
•Halo の成分だけなら通常の天体でも可能?
Massive Compact Halo Object (MACHO)
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(4) MACHOThe MACHO Project: Microlensing Results from 5.7 Years of LMC Observations :ApJ.542(2000)281
What they have done•toward LMC: 5.7yr data•1.19107stars13~17events•variability of 34~230days
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fit
ampl
ific
atio
n
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What they have found•expected from usual stars:2~4events
MACHO exist•optical depth
1/2 compare to the previous result
74.03.0 102.1
•inconsistent with LMC/LMC-disk self lensing
•consistent with halos of Milky Way or LMC
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•If they are halo events, MACHO is:
20% halo fraction for standard halo model
8~50% halo fraction with 95% CL
100% MACHO halo is ruled out with 95%CL
mass:0.15~0.9M
total 6~131010M within 50kpc
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standard halo modelFraction of MACHO
mas
s of
MA
CH
O
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What is MACHO?
Perhaps White Dwarf (WD)!
•New cooling model of WD Hansen ApJ.520(99)680
much bluer than we thought if there is H-atmosphere
H2 provide strong opacity in infrared forcing the radiation out in the blue
•We had been looking for wrong ones.
•In HDF, faint blue, fast moving object!
Ibata et al ApJ524 (1999)L95
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Hansen
blue red
He-atmosphere1kpc
2kpcH-atmosphere
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MACHO is at most 50% of halo fraction
MACHO=M is unlikely
If White Dwarf, the amount is constrained by gamma-ray from distant sources (z=0.034)
Freese, et al. astro-ph/0002058
WD<(1-3)10-3h-1
Particle Dark Matter is still necessary!
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§4. Structure FormationInteraction between components
photon
electron dark matterbaryon
gravityThomson Scatt
gravitystars, galaxy
gas
dark halo of galaxylarge scale structure
CMB
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Two important epochs
•matter-radiation equality epoch
zeq=60000(h/0.5)2, 1012s, 104K
before: radiation dominant
after: matter dominant
•recombination
zeq=1300, 1013s, 103K
before: highly ionized
after: neutral, transparent
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Evolution
2) After Equality epoch Inside horizon:
dark matter: major component evolve by self-gravity
1) Before Equality epoch Inside sound horizon:
photon & baryon = tightly coupled acoustic oscillations
dark matter: minor component cannot evolve
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DM
DM
ln(1/(1+z))
equality
recomb
Baryon
Jeans cross
ln
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DM
DM
ln(1/(1+z))
equality
recomb
Baryon
Jeans cross
ln
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3) After Recombination photon & baryon: decoupled photon: free stream to us
CMBbaryon: grow (catch up with dark matter)
Large Scale Structure
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DM
DM
ln(1/(1+z))
equality
recomb
Baryon
Jeans cross
ln
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DM
DM
ln(1/(1+z))
equality
recomb
Baryon
Jeans cross
ln
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If dark matter has large kinetic energy:
small scale fluct are erased by random motion
Massive Neutrino: Hot Dark Matter
Dark Matter: equality epoch
CMB: recombination epoch
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Specific Scale & Observational Quantities
•Matter Density Fluctuations
Horizon Scale at matter-radiation equality epoch
Power Spectrum P(k) k; wave number
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Information
0h: horizon scale at matter-radiation equality epoch
measured in [h-1Mpc]
Initial Power Spectrum: very large scale
Nature of dark matter: cutoff on small scale
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k[hMpc-1]
P(k
)CDM high 0h
CDM low 0h
HDM high 0h1k
kk ln3
LSS cluster galaxies
Horizon at equality
small scalelarge scale
Initial
power
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Observations
(1) Matter Density Fluctuations
Galaxy Redshift Survey
Past:
CfA, Las Campanas Redshift Survey, QDOT, …on going and future:
2dF (100,000 galaxies out of 200,000),
Sloan Digital Sky Survey, 2MASS, DEEP,
PSCz,...
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Shape of the power spectrum
0h=0.2-0.3 (Peacock & Dodds 1994)
if h=0.7 (HST), 00.3
Amplitude of the power spectrum
COBE normalization & Clusters
low neutrino mass: m<0.6eV (Fukugita, Liu, NS 2000)
low density (Eke et al 1996, Kitayama, Suto 1997)
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Eke, Cole, Frenk 1996
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2dF vs. APM
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2dF (Peacock et al.)
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Mh=0.200.03, B/M=0.150.07
if h=0.7 (HST), 00.3
2dF Galaxy Redshift Surevey
Peacock et al. astro-ph/0105500
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Loop hole
bias: Do galaxies really trace the mass?
Direct measurement of underling gravitational field
Peculiar Velocity Field
Weak Gravitational Lensing
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Weak gravitational lensing
Measuring cosmic shear field:
distortion of the galaxy images by lensing
Witteman et al.
Nature 405, 143 (00)
28
2.1
2.12
~
)(~
M
M kP
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Bacon D., Refregier A., Ellis. R., 2000, MNRAS, 318, 625
Kaiser N., Wilson G., Luppino G.~A., 2000, ApJ astro-ph/0003338
Maoli R., et al., 2001, A\&A, 368, 766
Van Waerbeke L., et al., 2000, A\&A, 358, 30
Van Waerbeke L., et al., 2001a, A\&A in press
Wittman D.~N., et al., 2000, Nature, 405, 143
Pirzkal et al., 2001, A&A in press, (astro-ph/0102330)
References
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Van Waerbeke L., et al., 2001a, A\&A in press, astro-ph/0101511
Canada-France-Hawaii Telscpoe,
6.5 sq. deg. Field, ~40hours data
• M=0.3, =0.7, 8=0.9 CDM is consistent
+0.04- 0.05• 8 M
0.6 = 0.43
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M
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M=0.3,
=0, 8=0.9
M=0.3,
=0.7, 8=0.9
M=1,
=0, 8=0.6
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Low density adiabatic CDM:
0=0.3, =0.7, H0=70km/s/Mpcsucceed remarkably well•distant SNe•H0 from HST key project•CMB anisotropies•Cosmic Age•Large Scale Structure of the Universe
matter power spectrum P(k):
shape parameter =0h=0.2~0.3
amplitude at 8h-1Mpc:8
§5.Success of -CDM
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•Is CDM real?
•What is CDM?
•Why and how does universe have ?
CDM is just a big trickCDM is just a big trick
or reality?or reality?
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CDM is still the most favorite dark matter candidate
BUT
Some modification is needed
Problems of CDM model:
structure formation on < 1Mpc
CDM predicts
• an overly dense core in the centers of gal and clusters
• an overly large number of halos within Local Group
• triaxial halos
5-1 CDM crisis on small scales?
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Moore et al. ApJ Lett. 1998
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High Resolution Simulations of CDM
1/(r1.4(1+(r/rc)1.4) (Moore et al. ApJ.Lett 1998)
r-1.4 in the center
Rotation Curve of galaxies
1/(1+(r/rc)2) (de Blok & McGaugh MNRAS 1997)
const. in the center
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in 0.5h-1Mpc
Klypin et al.
ApJ 522(99)82
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Klypin et al.
ApJ 522(99)82
in 0.4h-1Mpc
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Self-interacting cold dark matter (Spergel and Steinhardt PRL 84(2000)3760)
Consider
•self-interaction dark matter
•large scattering cross-section
•negligible annihilation or dissipation
•1kpc to 1Mpc mean free path
XX=8.110-25cm2 (mx/GeV)(Mpc/)
>1Mpc no effect
<1kpc too spherical cluster cores
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Predictions:
(1)centers of halos are spherical
(2)dark matter halos have cores
(3)substructure in inner regions rapidly suppressed
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1) innermost regions of DM halos in massive clusters
are elliptical (Miralda-Escude astro-ph/0002050)
• gravitational lensing observations
XX<3.210-26cm2 (mx/GeV)
>25Mpc: ruled out?
Problems?
2) produce too large and too round cores
(Yoshida et al. astro-ph/0006134)
• numerical Simulations
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Smaller cross-section
Larger cross-section
round/large coretriaxial/small core
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3) too small velocity dispersion of Elliptical Galaxies
(Gnedin & Ostriker astro-ph/0010436)
4) appropriate particle candidates?
Particles with a conserver global charge (hidden baryon number?) interacting through a hidden gauge group (hidden color?)
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Warm Dark Matter (WDM)
keV mass particles ~ cutoff at Mpc scale
Mpc)keV1/()5.1/()15.0/(2.0 15.129.015.02 XXXC mghR
Colin et al. ApJ 542(2000)622
Bode, Ostriker, Turok, astro-ph/0010389
Problem: hard to form small objects
• reionization before z>5: mX > 1.2keV
• Ly-alpha Forest: mX > 750eVBarkana, Haiman, Ostriker astro-ph/0102304
Narayanan et al. astro-ph/0005095
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5-2 Dark Energy
What is ?
Quintessence (Steinhardt et al.)
Motivation:
avoid fine tuning problem of •5th element:,baryon, dark matter, •Scalar Field works as an effective
Should be: w=p/<0 (=-1 for )
=(dQ/dt)2/2+V(Q) p=(dQ/dt)2/2-V(Q)
=>slow evolution of Q field
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Naturalness requires• as if radiation before matter-radiation euality•attractor solution
Zlatev et al. PRL82(1888)896
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= a-3(1+w)
Influence on Cosmology
works as “weak”
•effects on CMB anisotropies:
change the matter-radiation equality epoch
•Constraint from high z SNe
modify the acceleration/deceleration
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We have hope to determine the equation of state
w by SNe (at z~1) and/or CMB (z~1000)