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Abundance of Galaxies and Dark Matter
Mario AbadiAlejandro Benítez-Llambay & Ismael Ferrero
Observatorio Astronómico Universidad Nacional de Córdoba, UNCInstituto de Astronomía Teórica y Experimental CONICET-UNC
Argentina
November 22-29, 2013Latin American Regional IAU Meeting
Florianopolis, Brazil
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Collaborators
Julio Navarro (University of Victoria, Canada)Laura Sales (Harvard, United States)Sebastian Gurovich (IATE, Argentina) Stefan Gottloeber (Astrophysical Institute, Potsdam, Germany) Gustavo Yepes (Universidad Autonóma de Madrid, Spain)Yehuda Hoffman (Hebrew University of Jerusalem, Israel)Matthias Steinmetz (Astrophysical Institute, Potsdam, Germany)
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Mass-Energy Content of the Universe
Cosmic Microwave Background Temperature=2.735 °K (Plank Satellite 2013)
fbar=4.9/26.8 ~ 18% Ordinary Matter
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Mass-Energy Content of the Universe
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Where are the Stars?
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Where are the Stars?
Credits:Duncan Forbes
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Where is the Dark Matter?
Aquarius SimulationSpringel et al. 2008
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Where is the Dark Matter?
Aquarius SimulationSpringel et al. 2008
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Where is the Dark Matter?
Aquarius SimulationSpringel et al. 2008
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~650 Mpc
Galaxy Distribution
Sloan Digital SkySurvey, ~50000 galaxies from Sloan Digital Sky Survey with redshift 0.0033 <z<0.05 by Baldry et al 2008
Credits: M. Blanton & Sloan Digital Sky Survey Team Milky Way Stellar mass5x10^10 Msolar
Log Stellar Mass [Msolar]
Num
ber D
ensi
ty o
f Gal
axie
s pe
r bin
[dex
^-1
Mpc
^-3]
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Dark Matter Halos DistributionMillennium series of Dark Matter only simulations (Springel et al 2005 & Angulo et al 2012)
Dark Matter Halo Mass
Num
ber D
ensi
ty o
f Hal
os p
er b
in [d
ex^-
1 M
pc^-
3]
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Galaxy and Halo Mass FunctionAt the faint end, the dark matter halo mass function is much steeper than the galaxy stellar mass functionWhat is the relation between galaxy stellar mass and dark matter halo mass in order to reconcile these two distributions?
GalaxiesBaldry et al 2008
Log Mass [Msolar]
Milennium Dark Matter Halos (rescaled)
Num
ber D
ensi
ty o
f per
bin
[dex
^-1
Mpc
^-3]
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Galaxy Stellar Mass vs Halo Mass
Abundance MatchingGuo et al 2011
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar] Milky Way
Universal Baryon Fraction fbar~0.171
Very steep relation at the low halo mass end. Essentially, no galaxies with Mgal>10^6 M should form in halos with mass below a threshold of 10^10 M
A mechanism to select a small fraction of low-mass haloes to be galaxy hosts while leaving dark the vast majority of systems of comparable (or even higher) mass. However…
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Galaxy Stellar Mass vs Halo Mass
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar]
Are these masses consistent with masses estimated from kinematic data?
Isolated dwarfs HI, tidal interactions negligible and more extended rotation curves
These results agree with a similar analysis done by Oh et al 2011.
See also Milky Way dSphs (Boylan-Kolchin 2011a,b)
Ferrero et al. 2012
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1) Incorrect interpretation of the data: rotational velocity of neutral gas in dwarf irregulars is not a direct measure of its circular velocity. Gas pressure, non-circular motions and gas velocity dispersion corrections should be taken into account.
2) Baryonic effects: supernova driven gas blowouts (e.g. Navarro et al. 1996) or gravitational fluctuations created by star-forming regions (Pontzen & Governato 2012) might reduce the dark matter content of dwarf galaxies and alleviate the problem.
Galaxy Stellar Mass vs Halo Mass
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar]
Ferrero et al. 2012
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CLUES Simulation
A cosmological numerical simulation that matches the Local Group nearby large-scale structure and the relative positions, stellar masses and morphology of its 3 main spirals: Milky Way (MW), Andromeda (M31) and Triangulum (M33).
SPH-GADGET2 (Springel 2005) code with cosmic ionizing UV background, star formation, Supernova feedback and isotropic winds.
Zoom-in technique with a Low res region = box of 64/h Mpc on a sideHigh res region = roughly spherical of 2/h Mpc radius
Initially, 53 millon gas plus dark matter particles mgas~6x10^4 Msolar mdark~3.5x10^5 MsolarSoftening 0.14 kpc
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Clues Simulations: Dark Matter
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar]
Credits: G. Yepes
1.3 Mpc/h
Ferrero et al. 2012Benitez Llambay et al. 2013
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Clues Simulations: Gas
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar]
Credits: K. Riebe
2Mpc/h 50 kpc/hFerrero et al. 2012Benitez Llambay et al. 2013
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Star Formation
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar] Galaxies with on-going
star formation
Galaxies that stopped forming stars
Ferrero et al. 2012Benitez Llambay et al. 2013
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Ram Pressure Stripping with the Cosmic WebBenitez-Llambay et al 2013
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Galaxy Stellar Mass vs Halo Mass
Log Dark Matter Halo Mass
Log
Stel
lar M
ass
[Mso
lar]
Ferrero et al. 2012Benitez Llambay et al. in prep.
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Reionization
Benitez Llambay et al in prep
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ConclusionsAbundance matching implies that galaxy formation must become extremely inefficient below 10^10 Msolar in order to reconcile the galaxy stellar mass function with dark halo mass function on galactic scales.Many of the galaxies in our sample have enclosed masses much lower than expected from haloes as massive as 10^10 Msolar"Cosmic web stripping" enables the removal of baryons from low-mass halos without appealing to feedback or reionization. May help to explain the scarcity of dwarf galaxies compared with the numerous low-mass halos expected in the CDM and the large diversity of star formation histories and morphologies characteristic of faint galaxies.Further simulations and observational evidence needed.