internal dynamics of galaxies and groups
DESCRIPTION
Internal Dynamics of Galaxies and Groups. Aaron J. Romanowsky Universidad de Concepción. PNe. Collaborators: N. Douglas, L. Coccato, (Kapteyn) , K. Kuijken (Leiden) , M. Merrifield (Nottingham) , M. Arnaboldi (Torino) , O. Gerhard (MPE) , K. Freeman (RSAA) - PowerPoint PPT PresentationTRANSCRIPT
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Collaborators: N. Douglas, L. Coccato, (Kapteyn), K. Kuijken (Leiden), M. Merrifield (Nottingham), M. Arnaboldi (Torino), O. Gerhard (MPE), K. Freeman (RSAA) N. Napolitano, M. Capaccioli (Capodimonte) E. O’Sullivan (CfA), D. Forbes (Swinburne) T. Ponman, S. Raychaudhury (Birmingham) T. Richtler, D. Geisler, M. Gómez (Concepción) S. Zepf (Michigan St), G. Bergond (IAA), R. Sharples (Durham), Y. Schuberth (Bonn), L. Bassino, F. Faifer, J. Forte (La Plata),
L. Infante (PUC), K. Rhode (Wesleyan), P. Sánchez-Blázquez (EPFL)
Collaborators: N. Douglas, L. Coccato, (Kapteyn), K. Kuijken (Leiden), M. Merrifield (Nottingham), M. Arnaboldi (Torino), O. Gerhard (MPE), K. Freeman (RSAA) N. Napolitano, M. Capaccioli (Capodimonte) E. O’Sullivan (CfA), D. Forbes (Swinburne) T. Ponman, S. Raychaudhury (Birmingham) T. Richtler, D. Geisler, M. Gómez (Concepción) S. Zepf (Michigan St), G. Bergond (IAA), R. Sharples (Durham), Y. Schuberth (Bonn), L. Bassino, F. Faifer, J. Forte (La Plata),
L. Infante (PUC), K. Rhode (Wesleyan), P. Sánchez-Blázquez (EPFL)
PNePNe
X-rayX-ray
GCsGCs
Internal Dynamics of Galaxies and GroupsInternal Dynamics of Galaxies and Groups
Aaron J. Romanowsky
Universidad de Concepción
Aaron J. Romanowsky
Universidad de Concepción
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Elliptical galaxy environmental differencesElliptical galaxy environmental differencesCentral properties of ellipticals show only minor dependence on environment (e.g. Reda et al. 2005)NGC 821:
isolated
NGC 4697:group
NGC 4473:cluster
Virgo cluster:Virgo cluster: M87, M86, M84 M87, M86, M84 (Mihos et al. 2005)Virgo cluster:Virgo cluster: M87, M86, M84 M87, M86, M84 (Mihos et al. 2005)
Tidal fields in higher ρenv :
truncated DM halos?
truncated GC systems?
less radial anisotropy?
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GCS surface density profilesGCS surface density profiles
Extended GCSs in BCGs (McLaughlin 1999)
Stripped halos?:
GCs as proxy for DM (e.g. Bekki et al. 2005)
N R -1.5
N R -5
NGC 4636: BGG in Virgo infalling group? (Dirsch et al. 2005)
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Galaxy/group M/L results/predictionsGalaxy/group M/L results/predictions
(Parker et al. 2005)
Manenbaum plot,vdB plot,Tully plot
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Combined halo probesCombined halo probes• Planetary Nebulae, Globular Clusters, X-
rays
Cross-checks for reliability Much stronger combined constraints,
e.g., use MX(r) and find orbit
anisotropy from kinematical data
Cross-correlate stellar+GC pops kinematics• Long-term PN.Spectrograph program on WHT(Douglas et al.)
• Various GCs projects (VLT, Magellan, Gemini)
• Chandra archive grant, new XMM-Newton data (O‘Sullivan et al.)
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Probing E halos with X-ray emissionProbing E halos with X-ray emission
NGC 4365 NGC 4382
Chandra ACIS-S (Sivakoff, Sarazin & Irwin 2003)
Chandra, XMM-Newton: large area, high angular resol´n determine T(r), subtract pt. sources, check equilibrium important to not select on LX (biased mass result!)
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D=19 Mpc, MB=-21.1
Fornax central E1
VLT+FORS2/MXU,Gemini-S+GMOS:Nov/Dec 2000, Nov/Dec 2002,Nov/Dec 2004(Richtler et al.)
>700 velocitiesto 90 kpc, v = 20-100 km/s
Globular Clusters in NGC 1399
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NGC 1399: GC dispersion profile NGC 1399: GC dispersion profile
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PNe consistentwith long-slit data
PN p(R) constant
or rising with R
PNe have lowerp(R) than GCs (Hanes et al. 2001)
M87: Dispersion profiles
dark halo indicated
PN, GC orbits differ
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Stars + 200 PNs (Douglas et al.)
M87: Modeled circular velocity profile
XMM-Newton (Matsushita et al. 2002)
Stars + 234 GCs (Romanowsky & Kochanek 2001)
strong stellar anisotropy
good agreement
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PNe consistentwith long-slit data
PN p(R) constant
or rising with R
PNe have similarp(R) to GCs
(Zepf et al. 2000)
NGC 4472: Dispersion profiles
dark halo indicated
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NGC 4636: GC dispersion profile NGC 4636: GC dispersion profile
(Jones et al. 2002)
174 GC velocities w/VLT+FORS2/MXU:
roughly constant velocity dispersion
lower halo mass than Chandra results(Schuberth et al.)
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VLT+FLAMES/
GIRAFFE,
Keck+LRIS:
Nov 2004
35 GC velocities
v = 15-30 km/s
E1 , MB = -21.6
D = 27 Mpc
GCs in NGC 1407 (Eri A group)
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stars
NGC 1407: GC dispersion profile NGC 1407: GC dispersion profile
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WHT+PN.S:March 20023 hrs :
197 PN velocities to 7 Reff ,
v = 20 km/s
E1 , MB = -20.0
D = 11 Mpc.
Leo I central
PNe in NGC 3379
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PNs
stars
NFW halo
no DM
NGC 3379: stellar/PN dispersion profile NGC 3379: stellar/PN dispersion profile
σp(R) R , = -0.36 0.07
β=0
MOND
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NGC 3379 : circular velocity profile
• cumulative M/L
at 5 Reff : = 7.1
0.6
• DM fraction
inside Reff ~ 3%
const M/L
ΛCDM+AC
best-fit halo
PN.S
Orbit modelsinclude variable anisotropy! (find β ~ -0.3 → +0.5)
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UT2+FLAMES/
GIRAFFE:
May-Jul 2003
5 hours :
34 GC velocities
v = 5-15 km/s
E1 , MB = -19.9
D = 10 Mpc
GCs in NGC 3379
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NGC 3379 : GCS dispersion profile
Weakly declining dispersion:σp(R) R , = -0.13 0.12
Due largely to different N(R) , β(r)
cf. PNs
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NGC 3379 : GCS dynamicsModel predictions vs. data(isotropy)
const M/L
MOND
Best PNs + ΛCDM
GCs data
ΛCDM
Best HI ring + ΛCDM
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NGC 3379: HI gas ring Mass measurement N3379 + N3384: M/LB (100 kpc) = 27 5 (Schneider 1985)
Not consistent with group-mass halo
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NGC 3379 : Constraints on halo
Problem for consensus solution: HI and GCs not consistent
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N3379 N3608
N4564 N4552 N4374
N5846N3377
N4365
N4742
N4339
N4494
N4473
“Ordinary” (~L*) elliptical galaxy sample Family 2 (boxy/bright)
Cluster
Group
Family 1 (disky/faint)
Field
N821 N2663 N7507N7196
Xray
Xray
Xray XrayXrayXray
Xray
PNe (PNe)
PNe
PNe
PNe PNe PNe
(PNe)PNe
Xray
PNe
XrayGCs
PNe
Xray
PNe
N5582 N6673
(PNe)
(GCs)(GCs) (GCs)
(GCs)(GCs)
(GCs)
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5 “normal” (L*)ellipticals:p(R) declining
with R(Ciardullo et al. 1993; Méndez et al. 2001; Romanowsky et al. 2003; Teodorescu et al. 2005)
Extended stellar/PN dispersion profiles
Population of ordinary ellipticals with low DM content?
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M/L gradient parameterM/L gradient parameter
ϓl : logarithmic radial gradient of M/L
r
R
M
M
M
M
r
R e
inΥΥ
Υin*
d
out*
del
theoretical quantity empirical quantity
ϓl : independent of bandpass, distance;
insensitive to measurement radii (rin , rout)
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ΛCDM predictions (fb=0.17, σ8=0.9)ΛCDM predictions (fb=0.17, σ8=0.9)
ϓl :
increases with M*,
decreases with εSF
εSF
Sensitive to M*-Re
relation
Valid statistically, not individually
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Sample of 21 Es, S0s
M/L from stars, PNe, GCs
Empirical gradientsEmpirical gradients
Significant
correlations
between ϓl
& MB ,M* , a4 ,
Not with ρenv
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Low concentration halos?
CDM (Bullock et al. 2001)
Fits to ϓ data
assuming ΛCDM HOD (van den Bosch et al. 2003)
(after Napolitano et al. 2005)
0.5 cvir (e.g. ΛWDM)
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Low concentration halos?
Chandra/XMM galaxy sample: c ~ 2-4 (~ cluster concentrations) (Fukazawa et al. 2006)
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Results for star formation efficiencyResults for star formation efficiencyAssuming LCDM
concentrations:
Brighter galaxies:
reasonable εSF
Fainter galaxies:
some εSF > 1
(fb > 0.17)
weak lensing
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Next conference: “GROUPS OF GUANACOS IN THE NEARBY UNIVERSE” ?!
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Natural outcome of merger?
Dekel et al. (2005)
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Natural outcome of merger?
recent starburst contaminating PNe
Sbc-Sbc 1:1 merger
Data may be reproduced if:
or
Radial anisotropy, triaxiality can naturally lower projected dispersions
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Simulations realistic?Blue bump from excess baryon cooling :extra concentration of stars, DM steepens dispersion
~30% central DM fraction contradicts best observational estimate (~10% fast rotators)
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Radial anisotropy?
Athanassoula (2005)
N821,N3379,N4494 PNe
N3379 orbit model
Dekel et al. (2005)
tangential
radial
isotropic