291 research outputs found
Outflow or galactic wind: The fate of ionized gas in the halos of dwarf galaxies
Context: H\alpha images of star bursting irregular galaxies reveal a large
amount of extended ionized gas structures, in some cases at kpc-distance away
from any place of current star forming activity. A kinematic analysis of
especially the faint structures in the halo of dwarf galaxies allows insights
into the properties and the origin of this gas component. This is important for
the chemical evolution of galaxies, the enrichment of the intergalactic medium,
and for the understanding of the formation of galaxies in the early universe.
Aims: We want to investigate whether the ionized gas detected in two
irregular dwarf galaxies (NGC 2366 and NGC 4861) stays gravitationally bound to
the host galaxy or can escape from it by becoming a freely flowing wind.
Methods: Very deep H\alpha images of NGC 2366 and NGC 4861 were obtained to
detect and catalog both small and large scale ionized gas structures down to
very low surface brightnesses. Subsequently, high-resolution long-slit echelle
spectroscopy of the H\alpha line was performed for a detailed kinematic
analysis of the most prominent filaments and shells. To calculate the escape
velocity of both galaxies and to compare it with the derived expansion
velocities of the detected filaments and shells, we used dark matter halo
models.
Results: We detected a huge amount of both small scale (up to a few hundred
pc) and large scale (about 1-2 kpc of diameter or length) ionized gas
structures on our H\alpha images. Many of the fainter ones are new detections.
The echelle spectra reveal outflows and expanding bubbles/shells with
velocities between 20 and 110 km/s. Several of these structures are in
accordance with filaments in the H\alpha images. A comparison with the escape
velocities of the galaxies derived from the NFW dark matter halo model shows
that all gas features stay gravitationally bound.Comment: 15 pages, 13 figures, accepted for publication in A&
Discovery of a tidal dwarf galaxy in the Leo Triplet
We report discovery of a dwarf galaxy in the Leo Triplet. Analysis of the
neutral hydrogen distribution shows that it rotates independently of the tidal
tail of NGC 3628, with a radial velocity gradient of 35-40 km s over
approximately 13 kpc. The galaxy has a very high neutral gas content,
explaining large part of its total dynamic mass - suggesting small dark matter
content. As it is located at the tip of the gaseous tail, this strongly
suggests its tidal origin. Should it be the case, it would be one of the most
confident and closest (to the Milky Way) detections of a tidal dwarf galaxy
and, at the same time, a most detached from its parent galaxy (140
kpc) object of this type.Comment: 6 pages, 4 figures; The Astrophysical Journal, in pres
Probing The Multiphase Interstellar Medium Of The Dwarf Starburst Galaxy NGC 625 With FUSE Spectroscopy
We present new FUSE spectroscopy of the dwarf starburst galaxy NGC 625. These
observations probe multiple phases of the interstellar medium, including the
coronal, ionized, neutral and molecular gas. This nearby (D = 3.9 +/- 0.2 Mpc)
system shows a clear detection of outflowing coronal gas as traced by OVI 1032
Angstrom absorption. The centroid of the OVI profile is blueshifted with
respect to the galaxy systemic velocity by ~ 30 km/sec, suggesting a
low-velocity outflow. The implied OVI velocity extent is found to be 100 +/- 20
km/sec, which is fully consistent with the detected HI outflow velocity found
in radio synthesis observations. We detect multiple lines of diffuse H2
absorption from the ISM of NGC 625; this is one of only a few extragalactic
systems with FUSE detections of H2 lines in the Lyman and Werner bands. We find
a potential abundance offset between the neutral and nebular gas that exceeds
the errors on the derived column densities. Since such an offset has been found
in multiple dwarf galaxies, we discuss the implications of a lower-metallicity
halo surrounding the central star forming regions of dwarf galaxies. The
apparent offset may be due to saturation of the observed OI line, and higher
S/N observations are required to resolve this issue.Comment: ApJ, in press; full-resolution version may be obtained at
http://www.astro.umn.edu/~cannon/n625.fuse.p
A search for extended radio emission from selected compact galaxy groups
Context. Studies on compact galaxy groups have led to the conclusion that a
plenitude of phenomena take place in between galaxies that form them. However,
radio data on these objects are extremely scarce and not much is known
concerning the existence and role of the magnetic field in intergalactic space.
Aims. We aim to study a small sample of galaxy groups that look promising as
possible sources of intergalactic magnetic fields; for example data from radio
surveys suggest that most of the radio emission is due to extended, diffuse
structures in and out of the galaxies. Methods. We used the Effelsberg 100 m
radio telescope at 4.85 GHz and NRAO VLA Sky Survey (NVSS) data at 1.40 GHz.
After subtraction of compact sources we analysed the maps searching for
diffuse, intergalactic radio emission. Spectral index and magnetic field
properties were derived. Results. Intergalactic magnetic fields exist in groups
HCG 15 and HCG 60, whereas there are no signs of them in HCG 68. There are also
hints of an intergalactic bridge in HCG 44 at 4.85 GHz. Conclusions.
Intergalactic magnetic fields exist in galaxy groups and their energy density
may be comparable to the thermal (X-ray) density, suggesting an important role
of the magnetic field in the intra-group medium, wherever it is detected.Comment: 13 pages, 4 figures, 3 tables, accepted for publication in A&
ORFEUS II echelle spectra: Absorption by H_2 in the LMC
We present the first detection of molecular hydrogen (H_2) UV absorption
profiles on the line of sight to the LMC. The star LH 10:3120 in the LMC was
measured with the ORFEUS telescope and the Tuebingen echelle spectrograph
during the space shuttle mission of Nov./Dec. 1996. 16 absorption lines from
the Lyman band are used to derive the column densities of H_2 for the lowest 5
rotational states in the LMC gas. For these states we find a total column
density of N(H_2)=6.6 x 10^18$ cm^-2 on this individual line of sight. We
obtain equivalent excitation temperatures of T < 50 K for the rotational ground
state and T = 470 K for 0 < J < 6 by fitting the population densities of the
rotational states to theoretical Boltzmann distributions. We conclude that UV
pumping dominates the population of the higher rotational levels, as known from
the H_2 gas in the Milky Way. (Research supported in part by the DARA)Comment: Astronomy & Astrophysics, Letter, in pres
M82 - A radio continuum and polarisation study I. Data reduction and cosmic ray propagation
The potential role of magnetic fields and cosmic ray propagation for feedback
processes in the early Universe can be probed by studies of local starburst
counterparts with an equivalent star-formation rate. Archival data from the
WSRT was reduced and a new calibration technique introduced to reach the high
dynamic ranges needed for the complex source morphology of M82. This data was
combined with archival VLA data, yielding total power maps at 3cm, 6cm, 22cm
and 92cm. The data shows a confinement of the emission at wavelengths of 3/6cm
to the core region and a largely extended halo reaching up to 4kpc away from
the galaxy midplane at wavelengths of 22/92cm up to a sensitivity limit of
90muJy and 1.8mJy respectively. The results are used to calculate the magnetic
field strength in the core region to 98muG and to 24muG in the halo regions.
From the observation of free-free losses the filling factor of the ionised
medium could be estimated to 2%. We find that the radio emission from the core
region is dominated by very dense HII-regions and supernova remnants, while the
surrounding medium is filled with hot X-ray and neutral gas. Cosmic rays
radiating at frequencies higher than 1.4 GHz are suffering from high
synchrotron and inverse Compton losses in the core region and are not able to
reach the halo. Even the cosmic rays radiating at longer wavelengths are only
able to build up the observed kpc sized halo, when several starbursting periods
are assumed where the photon field density varies by an order of magnitude.
These findings together with the strong correlation between Halpha, PAH+, and
our radio continuum data suggests a magnetic field which is frozen into the
ionised medium and driven out of the galaxy kinematically.Comment: 17 pages, 17 figures, to be published in A&
- …