124 research outputs found
Intracluster stars tracing motions in nearby clusters
Cosmological simulations of structure formation predict that galaxies are
dramatically modified by galaxy harassment during the assembly of galaxy
clusters, losing a substantial fraction of their stellar mass which today must
be in the form of intracluster stars. Simulations predict non-uniform spatial
and radial velocity distributions for these stars. Intracluster planetary
nebulae are the only abundant component of the intracluster light whose
kinematics can be measured at this time. Comparing these velocity distributions
with simulations will provide a unique opportunity to investigate the
hierarchical cluster formation process as it takes place in the nearby
universe.Comment: 4 pages, 3 figures, to appear in the XXIst IAP Colloquium "Mass
Profiles and Shapes of Cosmological Structures", Paris 4-9 July 2005, France,
(Eds.) G. Mamon, F. Combes, C. Deffayet, B. Fort, EAS Publications Serie
The Planetary Nebulae Populations in the Local Group
Planetary nebulae have been used as tracers of light and kinematics for the
stellar populations in early-type galaxies since more than twenty years.
Several empirical properties have surfaced: for example the invariant bright
cut-off of the planetary nebulae luminosity function and correlations of the
luminosity specific PN number with the integrated properties of the parent
stellar populations. These observed properties are poorly understood in terms
of a simple model of a ionized nebula expanding around a non-evolving central
star. In order to make further steps, we need to study self-contained systems
at know distances whose PN populations are sufficiently nearby to permit
investigation into their physical properties. The galaxies in the Local Group
represent a valid proxies to study these late phases of evolved stellar
populations with a spread of metallicities, -element enhancements, and
star forming histories.Comment: 10 pages, 5 figures. To appear in "Lessons from the Local Group - A
Conference in Honour of David Block and Bruce Elmegreen" (eds. Freeman, K.C.,
Elmegreen, B.G., Block, D.L. \& Woolway, M., SPRINGER: NEW YORK
Planetary Nebulae and their parent stellar populations. Tracing the mass assembly of M87 and Intracluster light in the Virgo cluster core
The diffuse extended outer regions of galaxies are hard to study because they
are faint, with typical surface brightness of 1% of the dark night sky. We can
tackle this problem by using resolved star tracers which remain visible at
large distances from the galaxy centres. This article describes the use of
Planetary Nebulae as tracers and the calibration of their properties as
indicators of the star formation history, mean age and metallicity of the
parent stars in the Milky Way and Local Group galaxies . We then report on the
results from a deep, extended, planetary nebulae survey in a 0.5 sqdeg region
centred on the brightest cluster galaxy NGC 4486 (M87) in the Virgo cluster
core, carried out with SuprimeCam@Subaru and FLAMES-GIRAFFE@VLT. Two PN
populations are identified out to 150 kpc distance from the centre of M87. One
population is associated with the M87 halo and the second one with the
intracluster light in the Virgo cluster core. They have different line-of-sight
velocity and spatial distributions, as well as different planetary nebulae
specific frequencies and luminosity functions. The intracluster planetary
nebulae in the surveyed region correspond to a luminosity of four times the
luminosity of the Large Magellanic Cloud. The M87 halo planetary nebulae trace
an older, more metal-rich, parent stellar population. A substructure detected
in the projected phase-space of the line-of-sight velocity vs. major axis
distance for the M87 halo planetary nebulae provides evidence for the recent
accretion event of a satellite galaxy with luminosity twice that of M33. The
satellite stars were tidally stripped about 1 Gyr ago, and reached apocenter at
a major axis distance of 60-90 kpc from the centre of M87. The M87 halo is
still growing significantly at the distances where the substructure is
detected.Comment: 8 pages, 3 figures, To appear in the proceedings of the IAU Symposium
317 "The General Assembly of Galaxy Halos: Structure, Origin and Evolution'',
A. Bragaglia, M. Arnaboldi, M. Rejkuba & D. Romano, ed
Surface Photometry and Metallicity of the Polar Ring Galaxy A0136-0801
We present a photometric and spectroscopic study of the polar ring galaxy
A0136-0801 in order to constrain its formation history. Near-Infrared (NIR) and
optical imaging data are used to extract surface brightness and color profiles
of the host galaxy and the wide polar structure in A0136-0801. The host galaxy
dominates the light emission in all bands; the polar structure is more luminous
in the optical bands and is three times more extended than the main spheroid.
The average stellar population in the spheroid is redder than in the polar
structure and we use their (B-K) vs. (J-K) colors to constraint the ages of
these populations using stellar population synthesis models. The inferred ages
are 3-5 Gyrs for the spheroid and 1-3 Gyrs for the polar structure. We then use
long slit spectra along the major axis of the polar structure to derive the
emission line ratios and constrain the oxygen abundance, metallicity and star
formation rate in this component. We find 12+log(O/H) = 8.33 +- 0.43 and Z ~
0.32 Zsun, using emission line ratios. These values are used, together with the
ratio of the baryonic masses of the host galaxy and polar structure, to
constraint the possible models for the formation scenario. We conclude that the
tidal accretion of gas from a gas rich donor or the disruption of a gas-rich
satellite are formation mechanisms that may lead to systems with physical
parameters in agreement with those measured for A0136-0801.Comment: 17 pages, 9 figures. Accepted for publication in MNRA
The Planetary Nebulae Luminosity Function and distances to Virgo, Hydra I and Coma clusters
The luminosity function of planetary nebulae populations in galaxies within
10-15 Mpc distance has a cut-off at bright magnitudes and a functional form
that is observed to be invariant in different galaxy morphological types. Thus
it is used as a secondary distance indicator in both early and late-type
galaxies. Recent deep surveys of planetary nebulae populations in brightest
cluster galaxies (BCGs) seem to indicate that their luminosity functions
deviate from those observed in the nearby galaxies. We discuss the evidence for
such deviations in Virgo, and indicate which physical mechanisms may alter the
evolution of a planetary nebula envelope and its central star in the halo of
BCGs. We then discuss preliminary results for distances for the Virgo, Hydra I
and Coma clusters based on the observed planetary nebulae luminosity functions.Comment: 5 pages, one figure. To appear on the Proceedings of the IAU Symp.
289 "Advancing the physics of cosmic distances
The outer regions of the giant Virgo galaxy M87. Kinematic separation of stellar halo and intracluster light
We present a spectroscopic study of 287 Planetary Nebulas (PNs) in a total
area of ~0.4 deg^2 around the BCG M87 in Virgo A. With these data we can
distinguish the stellar halo from the co-spatial intracluster light (ICL). PNs
were identified from their narrow and symmetric redshifted lambda 5007\4959
Angstrom [OIII] emission lines, and the absence of significant continuum. We
implement a robust technique to measure the halo velocity dispersion from the
projected phase-space to identify PNs associated with the M87 halo and ICL. The
velocity distribution of the spectroscopically confirmed PNs is bimodal,
containing a narrow component centred on the systemic velocity of the BCG and
an off-centred broader component, that we identify as halo and ICL,
respectively. Halo and ICPN have different spatial distributions: the halo PNs
follow the galaxy's light, whereas the ICPNs are characterised by a shallower
power-law profile. The composite PN number density profile shows the
superposition of different PN populations associated with the M87 halo and the
ICL, characterised by different PN alpha-parameters, the ICL contributing ~3
times more PNs per unit light. Down to m_5007=28.8, the M87 halo PN luminosity
function (PNLF) has a steeper slope towards faint magnitudes than the IC PNLF,
and both are steeper than the standard PNLF for the M31 bulge. Moreover, the IC
PNLF has a dip at ~1-1.5 mag fainter than the bright cutoff, reminiscent of the
PNLFs of systems with extended star formation history. The M87 halo and the
Virgo ICL are dynamically distinct components with different density profiles
and velocity distribution. The different alpha values and PNLF shapes of the
halo and ICL indicate distinct parent stellar populations, consistent with the
existence of a gradient towards bluer colours at large radii. These results
reflect the hierarchical build-up of the Virgo cluster.Comment: 16 pages, 13 figures, 3 tables, A&A, in pres
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