266 research outputs found
The nature and evolution of Ultraluminous Infrared Galaxies: A mid-infrared spectroscopic survey
We report the first results of a low resolution mid-infrared spectroscopic
survey of an unbiased, far-infrared selected sample of 60 ultraluminous
infrared galaxies, using ISOPHOT-S on board ISO. We use the ratio of the 7.7um
`PAH' emission feature to the local continuum as a discriminator between
starburst and AGN activity. About 80% of all the ULIRGs are found to be
predominantly powered by star formation but the fraction of AGN powered objects
increases with luminosity.
Observed ratios of the PAH features in ULIRGs differ slightly from those in
lower luminosity starbursts. This can be plausibly explained by the higher
extinction and/or different physical conditions in the interstellar medium of
ULIRGs. The PAH feature-to-continuum ratio is anticorrelated with the ratio of
feature-free 5.9um continuum to the IRAS 60um continuum, confirming suggestions
that strong mid-IR continuum is a prime AGN signature. The location of
starburst-dominated ULIRGs in such a diagram is consistent with previous
ISO-SWS spectroscopy which implies significant extinction even in the
mid-infrared.
We have searched for indications that ULIRGs which are advanced mergers might
be more AGN-like, as postulated by the classical evolutionary scenario. No such
trend has been found amongst those objects for which near infrared images are
available to assess their likely merger status.Comment: aastex, 4 eps figures. Revised version, accepted by ApJ (Letters
Mid-infrared emission of galactic nuclei: TIMMI2 versus ISO observations and models
We investigate the mid-infrared radiation of galaxies that are powered by a
starburst or by an AGN. For this end, we compare the spectra obtained at
different spatial scales in a sample of infrared bright galaxies. ISO
observations which include emission of the nucleus as well as most of the host
galaxy are compared with TIMMI2 spectra of the nuclear region. We find that ISO
spectra are generally dominated by strong PAH bands. However, this is no longer
true when inspecting the mid-infrared emission of the pure nucleus. Here PAH
emission is detected in starbursts whereas it is significantly reduced or
completely absent in AGNs. A physical explanation of these new observational
results is presented by examining the temperature fluctuation of a PAH after
interaction with a photon. It turns out that the hardness of the radiation
field is a key parameter for quantifying the photo-destruction of small grains.
Our theoretical study predicts PAH evaporation in soft X-ray environments.
Radiative transfer calculations of clumpy starbursts and AGN corroborate the
observational fact that PAH emission is connected to starburst activity whereas
PAHs are destroyed near an AGN. The radiative transfer models predict for
starbursts a much larger mid-infrared size than for AGN. This is confirmed by
our TIMMI2 acquisition images: We find that the mid-infrared emission of
Seyferts is dominated by a compact core while most of the starbursts are
spatially resolved.Comment: 19 pages, 22 Figures, accepted by A&
Discovery of strongly blue shifted mid-infrared [NeIII] and [NeV] emission in ULIRGs
We report the discovery of blue shifted (delta(V) > 200 km/s) mid-infrared
[NeIII] and/or [NeV] emission in 25 out of 82 ULIRGs (30% of our sample). The
incidence of blue shifted [NeV] emission is even higher (59%) among the sources
with a [NeV] detection -- the tell-tale signature of an active galactic nucleus
(AGN). Sixteen ULIRGs in our sample, eleven of which are optically classified
as AGN, have [NeIII] blue shifts above 200 km/s. A comparison of the line
profiles of their 12.81um [NeII], 15.56um [NeIII] and 14.32um [NeV] lines
reveals the ionization of the blue shifted gas to increase with blue shift,
implying decelerating outflows in a stratified medium, photo-ionized by the
AGN. The strong correlation of the line width of the [NeIII] line with the
radio luminosity indicates that interaction of expanding radio jets with the
dense ISM surrounding the AGN may explain the observed neon line kinematics for
the strongest radio sources in this sample.Comment: Accepted for publication by ApJ Letters. 15 pages, 4 figure
The extraordinary mid-infrared spectral properties of FeLoBAL Quasars
We present mid-infrared spectra of six FeLoBAL QSOs at 1<z<1.8, taken with
the Spitzer space telescope. The spectra span a range of shapes, from hot dust
dominated AGN with silicate emission at 9.7 microns, to moderately obscured
starbursts with strong Polycyclic Aromatic Hydrocarbon (PAH) emission. The
spectrum of one object, SDSS 1214-0001, shows the most prominent PAHs yet seen
in any QSO at any redshift, implying that the starburst dominates the mid-IR
emission with an associated star formation rate of order 2700 solar masses per
year. With the caveats that our sample is small and not robustly selected, we
combine our mid-IR spectral diagnostics with previous observations to propose
that FeLoBAL QSOs are at least largely comprised of systems in which (a) a
merger driven starburst is ending, (b) a luminous AGN is in the last stages of
burning through its surrounding dust, and (c) which we may be viewing over a
restricted line of sight range.Comment: ApJ, accepte
ISO spectroscopy of star formation and active nuclei in the luminous infrared galaxy NGC 6240
We present Infrared Space Observatory mid- and far-infrared spectroscopy of
the merging galaxy NGC 6240, an object presenting many aspects of importance
for the role of star formation and AGN activity in [ultra]luminous infrared
galaxies. The mid-infrared spectrum shows starburst indicators in the form of
low excitation fine-structure line emission and aromatic `PAH' features. A
strong high excitation [OIV] line is observed which most likely originates in
the Narrow Line Region of an optically obscured AGN. NGC 6240 shows extremely
powerful emission in the pure rotational lines of molecular hydrogen. We argue
that this emission is mainly due to shocks in its turbulent central gas
component and its starburst superwind. The total shock cooling in infrared
emission lines accounts for ~0.6% of the bolometric luminosity, mainly through
rotational H_2 emission and the [OI] 63micron line. We analyse several ways of
estimating the luminosities of the starburst and the AGN in NGC 6240 and
suggest that the contributions to its bolometric luminosity are most likely in
the range 50-75% starburst and 25-50% AGN.Comment: 5 figures. Accepted for publication in A&
The distribution of silicate strength in Spitzer spectra of AGNs and ULIRGs
A sample of 196 AGNs and ULIRGs observed by the Infrared Spectrograph (IRS)
on Spitzer is analyzed to study the distribution of the strength of the 9.7
micron silicate feature. Average spectra are derived for quasars, Seyfert 1 and
Seyfert 2 AGNs, and ULIRGs. We find that quasars are characterized by silicate
features in emission and Seyfert 1s equally by emission or weak absorption.
Seyfert 2s are dominated by weak silicate absorption, and ULIRGs are
characterized by strong silicate absorption (mean apparent optical depth about
1.5). Luminosity distributions show that luminosities at rest frame 5.5 micron
are similar for the most luminous quasars and ULIRGs and are almost 10^5 times
more luminous than the least luminous AGN in the sample. The distributions of
spectral characteristics and luminosities are compared to those of optically
faint infrared sources at z~2 being discovered by the IRS, which are also
characterized by strong silicate absorption. It is found that local ULIRGs are
a similar population, although they have lower luminosities and somewhat
stronger absorption compared to the high redshift sources.Comment: Accepted for publication on ApJ
A large mid-infrared spectroscopic and near-IR imaging survey of ULIRGs: their nature and evolution
We present a low resolution mid-infrared spectroscopic survey of an unbiased sample of 62 Ultraluminous Infrared Galaxies (ULIRGs) using ISOPHOT-S on board ISO. For comparison we also present ISOPHOT-S spectra for 23 AGN and 15 starburst and normal galaxies. The line-to-continuum ratio of the 7.7 m PAH emission feature is used as a discriminator between starburst and AGN activity in ULIRGs. We find that the majority of ULIRGs are predominantly powered by starbursts. The ratio LL for starburst dominated ULIRGs is similar to the one found for template starbursts.The shapes of the PAH features are sometimes unusual.Extinction has a noticeable effect on the PAH spectra of ULIRG starbursts. We have obtained high resolution near-infrared imaging for the Southern ISOPHOT-S ULIRGs to investigate their evolution stage. The majority (68%) of the ULIRGs imaged are double systems and all show distorted morphologies. Using separations for our work and from the literature, we have examined whether ULIRGs that are advanced mergers are more AGN-like. We have found no such evidence contrary to what is postulated by the classical evolutionary scenario. No correlation is found between the stage of merger in ULIRGs and their infrared luminosity.We also find that the total mass of interstellar gas, as estimated from the CO (1-0) luminosity, does not decrease with decreasing merger separation. When both an AGN and a starburst occur concurrently in ULIRGs, we find that the starburst dominates the luminosity output. We propose that the available gas reservoir and the individual structure of the interacting galaxies plays a major role in the evolution of the system
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