15 research outputs found
The Stellar Population of Stripped Cluster Spiral NGC 4522: A Local Analog to K+A Galaxies?
We present observations of the stripped Virgo Cluster spiral NGC 4522, a
clear, nearby example of a galaxy currently undergoing ISM-ICM stripping.
Utilizing SparsePak integral field spectroscopy on the WIYN 3.5m telescope and
GALEX UV photometry, we present an analysis of the outer disk (r > 3 kpc)
stellar population of this galaxy, beyond the HI and Halpha truncation radius.
We find that the star formation in the gas-stripped outer disk ceased very
recently, ~100 Myr ago, in agreement with previous claims that this galaxy is
currently being stripped. At the time of this stripping, data and models
suggest that the galaxy experienced a modest starburst. The stripping is
occurring in a region of the cluster well outside the cluster core, likely
because this galaxy is experiencing extreme conditions from a dynamic ICM due
to an ongoing sub-cluster merger. The outer disk has a spectrum of a K+A
galaxy, traditionally observed in high-redshift cluster galaxies. In the case
of NGC 4522, a K+A spectrum is formed by simple stripping of the interstellar
gas by the hot intracluster medium. These data show K+A spectra can be created
by cluster processes and that these processes likely extend beyond the cluster
core.Comment: 5 pages, 3 figures, accepted for publication in ApJ Letter
VIVA, VLA Imaging of Virgo spirals in Atomic gas: I. The Atlas & The HI Properties
We present the result of a new VLA HI Imaging survey of Virgo galaxies, VIVA
(the VLA Imaging survey of Virgo galaxies in Atomic gas). The survey includes
high resolution HI data of 53 carefully selected late type galaxies (48 spirals
and 5 irregular systems). The goal is to study environmental effects on HI gas
properties of cluster galaxies to understand which physical mechanisms affect
galaxy evolution in different density regions, and to establish how far out the
impact of the cluster reaches. As a dynamically young cluster, Virgo contains
examples of galaxies experiencing a variety of environmental effects. Its
nearness allows us to study each galaxy in great detail. We have selected Virgo
galaxies with a range of star formation properties in low to high density
regions (at the projected distance from M87, d_87=0.3-3.3 Mpc). Contrary to pr
evious studies, more than half of the galaxies in the sample (~60%) are fainter
than 12 mag in B_T. Overall, the selected galaxies represent the late type
Virgo galaxies (S0/a to Sd/Irr) down to m_p<~14.6 fairly well in morphological
type, systemic velocity, subcluster membership, HI mass and deficiency. In this
paper (VIVA I: the atlas and the HI properties), we present HI maps and
properties, and describe the HI morphology and kinematics of individual
galaxies in detail (abbreviated).Comment: K band magnitudes for 6 galaxies in Table 3 have been corrected. One
of the labels in Figure 8 is corrected and an omission in the acknowledgments
has been added. The latter two were correct in the previous astro-ph version
but are wrong in the journal version. A full resolution with the complete HI
atlas can be downloaded at http://www.astro.yale.edu/viva/pub.htm
Dense Cloud Ablation and Ram Pressure Stripping of the Virgo Spiral NGC 4402
We present optical, HI and radio continuum observations of the highly
inclined Virgo Cluster Sc galaxy NGC 4402, which show evidence for ram-pressure
stripping and dense cloud ablation. VLA HI and radio continuum maps show a
truncated gas disk and emission to the northwest of the main disk emission. In
particular, the radio continuum emission is asymmetrically extended to the
north and skewed to the west. The Halpha image shows numerous HII complexes
along the southern edge of the gas disk, possibly indicating star formation
triggered by the ICM pressure. BVR images at 0.5" resolution obtained with the
WIYN Tip-Tilt Imager show a remarkable dust lane morphology: at half the
optical radius, the dust lane of the galaxy curves up and out of the disk,
matching the HI morphology. Large dust plumes extend upward for ~1.5 kpc from
luminous young star clusters at the SE edge of the truncated gas disk. These
star clusters are very blue, indicating very little dust reddening, which
suggests dust blown away by an ICM wind at the leading edge of the interaction.
To the south of the main ridge of interstellar material, where the galaxy is
relatively clean of gas and dust, we have discovered 1 kpc long linear dust
filaments with a position angle that matches the extraplanar radio continuum
tail; we interpret this angle as the projected ICM wind direction. One of the
observed dust filaments has an HII region at its head. We interpret these dust
filaments as large, dense clouds which were initially left behind as the
low-density ISM is stripped, but are then ablated by the ICM wind. These
results provide striking new evidence on the fate of molecular clouds in
stripped cluster galaxies.Comment: 17 pages, 4 figures, accepted for publication in AJ. See
ftp://ftp.astro.yale.edu/pub/hugh/papers/crowl_n4402.ps.gz for a version with
high-resolution figure
The Stellar Populations of Stripped Spiral Galaxies in the Virgo Cluster
(Abridged) We present an analysis of the stellar populations of the
gas-stripped outer disks of ten Virgo Cluster spiral galaxies, utilizing
SparsePak integral field spectroscopy on the WIYN 3.5m telescope and GALEX UV
photometry. The galaxies in our sample show evidence for being gas-stripped
spiral galaxies, with star formation within a truncation radius, and a passive
population beyond the truncation radius. We find that all of the galaxies with
spatially truncated star formation have outer disk stellar populations
consistent with star formation ending within the last 500 Myr. The synthesis of
optical spectroscopy and GALEX observations demonstrate that star formation was
relatively constant until the quenching time, after which the galaxies
passively evolved. Large starbursts at the time of quenching are excluded for
all galaxies. For approximately half of our galaxies, timescales derived from
our observations are consistent with galaxies being stripped in or near the
cluster core, where simple ram-pressure estimates can explain the stripping.
However, the other half of our sample galaxies were clearly stripped outside
the cluster core. Such galaxies provide evidence that the intra-cluster medium
is not static and smooth. For three of our sample galaxies, our stripping
timescales agree with those from the gas stripping simulations, suggesting that
star formation is quenched near the time of peak pressure. While the stripping
of star-forming gas in the outer disk creates a passive population in our
galaxies, there is still normal star formation in the center of our sample
galaxies. It may be that Virgo is not massive enough to completely strip these
spiral galaxies and, in a more dynamically active cluster or a cluster with a
higher density ICM, such a process would lead to passive spirals and/or S0s.Comment: 17 pages, 19 figures, accepted for publication in AJ. Replaced
submission corrects Table names and matches figure style of Journal articl
A Spectacular H Complex in Virgo: Evidence for a Collision Between M86 and NGC 4438 and Implications for Collisional ISM Heating of Ellipticals
Deep wide-field H+[NII] imaging around the Virgo cluster giant
elliptical galaxy M86 reveals a highly complex and disturbed ISM/ICM. The most
striking feature is a set of H filaments which clearly connect M86 with
the nearby disturbed spiral NGC 4438 (23=120 kpc projected away), providing
strong evidence for a previously unrecognized collision between them.
Spectroscopy of selected regions show a fairly smooth velocity gradient between
M86 and NGC 4438, consistent with the collision scenario. Such a collision
would impart significant energy into the ISM of M86, probably heating the gas
and acting to prevent the gas from cooling to form stars. We propose that cool
gas stripped from NGC 4438 during the collision and deposited in its wake is
heated by shocks, ram pressure drag, or thermal conduction, producing most of
the H filaments. Some H filaments are associated with the
well-known ridge of bright X-ray emission to the NW of the nucleus, suggesting
that the collision is responsible for peculiarities of M86 previously ascribed
to other effects. M86 is radio-quiet, thus AGN heating is unlikely to play a
significant role. The M86 system has implications for understanding the role of
gravitational interactions in the heating of the ISM in ellipticals, and how
collisions in clusters transform galaxies.Comment: 6 pages, 2 figures. For high-resolution images, see
http://www.astro.yale.edu/tal/research/index.htm
Caught in the Act: Strong, Active Ram Pressure Stripping in Virgo Cluster Spiral NGC 4330
We present a multi-wavelength study of NGC 4330, a highly-inclined spiral
galaxy in the Virgo Cluster which is a clear example of strong, ongoing ICM-ISM
ram pressure stripping. The HI has been removed from well within the
undisturbed old stellar disk, to 50% - 65% of R_25. Multi-wavelength data (WIYN
BVR and H-alpha, VLA 21-cm HI and radio continuum, and GALEX NUV and FUV)
reveal several one-sided extraplanar features likely caused by ram pressure at
an intermediate disk-wind angle. At the leading edge of the interaction, the
H-alpha and dust extinction curve sharply out of the disk in a remarkable and
distinctive "upturn" feature that may be generally useful as a diagnostic
indicator of active ram pressure. On the trailing side, the ISM is stretched
out in a long tail which contains 10% of the galaxy's total HI emission, 6 - 9%
of its NUV-FUV emission, but only 2% of the H-alpha. The centroid of the HI
tail is downwind of the UV/H-alpha tail, suggesting that the ICM wind has
shifted most of the ISM downwind over the course of the past 10 - 300 Myr.
Along the major axis, the disk is highly asymmetric in the UV, but more
symmetric in H-alpha and HI, also implying recent changes in the distributions
of gas and star formation. The UV-optical colors indicate very different star
formation histories for the leading and trailing sides of the galaxy. On the
leading side, a strong gradient in the UV-optical colors of the gas-stripped
disk suggests that it has taken 200-400 Myr to strip the gas from a radius of
>8 to 5 kpc, but on the trailing side there is no age gradient. All our data
suggest a scenario in which NGC 4330 is falling into cluster center for first
time and has experienced a significant increase in ram pressure over the last
200-400 Myr.Comment: AJ accepted; 22 pages, 25 figures, version with full-resolution
figures available at http://www.astro.yale.edu/abramso