196 research outputs found
Fifty Years of Quasars: Physical Insights and Potential for Cosmology
Last year (2013) was more or less the 50th anniversary of the discovery of
quasars. It is an interesting time to review what we know (and don't know)
about them both empirically and theoretically. These compact sources involving
line emitting plasma show extraordinary luminosities extending to one thousand
times that of our Milky Way in emitting volumes of a few solar system diameters
(bolometric luminosity log L 44-48 [erg s]: D=1-3 light
months - gravitational radii). The advent of 8-10 meter
class telescopes enables us to study them spectroscopically in ever greater
detail.
In 2000 we introduced a 4D Eigenvector 1 parameters space involving optical,
UV and X-Ray measures designed to serve as a 4D equivalent of the 2D
Hertzsprung-Russell diagram so important for depicting the diversity of stellar
types and evolutionary states. This diagram has revealed a principal sequence
of quasars distinguished by Eddington ratio (proportional to the accretion rate
per unit mass). Thus while stellar differences are primarily driven by the mass
of a star, quasar differences are apparently driven by the ratio of
luminosity-to-mass.
Out of this work has emerged the concept of two quasars populations A and B
separated at Eddington ratio around 0.2 which maximizes quasar multispectral
differences. The mysterious 8% of quasars that are radio-loud belong to
population B which are the lowest accretors with the largest black hole masses.
Finally we consider the most extreme population A quasars which are the highest
accretors and in some cases are among the youngest quasars. We describe how
these sources might be exploited as standard candles for cosmology.Comment: Accepted for publication in Journal of Physics Conference Series (10
pages, 4 figures). Invited Lecture at International Symposium on the Physics
of Ionized Gas (SPIG 2014), Belgrade 26-29 August 201
3C 57 as an Atypical Radio-Loud Quasar: Implications for the Radio-Loud/Radio-Quiet Dichotomy
Lobe-dominated radio-loud (LD RL) quasars occupy a restricted domain in the
4D Eigenvector 1 (4DE1) parameter space which implies restricted
geometry/physics/kinematics for this subclass compared to the radio-quiet (RQ)
majority of quasars. We discuss how this restricted domain for the LD RL parent
population supports the notion for a RQ-RL dichotomy among Type 1 sources. 3C
57 is an atypical RL quasar that shows both uncertain radio morphology and
falls in a region of 4DE1 space where RL quasars are rare.
We present new radio flux and optical spectroscopic measures designed to
verify its atypical optical/UV spectroscopic behaviour and clarify its radio
structure. The former data confirms that 3C 57 falls off the 4DE1 quasar "main
sequence" with both extreme optical FeII emission (R_{FeII} ~ 1) and a large
CIV 1549 profile blueshift (~ -1500 km/s). These parameter values are typical
of extreme Population A sources which are almost always RQ. New radio measures
show no evidence for flux change over a 50+ year timescale consistent with
compact steep-spectrum (CSS or young LD) over core-dominated morphology. In the
4DE1 context where LD RL are usually low L/L_{Edd} quasars we suggest that 3C
57 is an evolved RL quasar (i.e. large Black Hole mass) undergoing a major
accretion event leading to a rejuvenation reflected by strong FeII emission,
perhaps indicating significant heavy metal enrichment, high bolometric
luminosity for a low redshift source and resultant unusually high Eddington
ratio giving rise to the atypical CIV 1549.Comment: Accepted for publication in MNRAS; 10 pages, 6 figures, 4 table
Blue outliers among intermediate redshift quasars
[Oiii]{\lambda}{\lambda}4959,5007 "blue outliers" -- that are suggestive of
outflows in the narrow line region of quasars -- appear to be much more common
at intermediate z (high luminosity) than at low z. About 40% of quasars in a
Hamburg ESO intermediate-z sample of 52 sources qualify as blue outliers (i.e.,
quasars with [OIII] {\lambda}{\lambda}4959,5007 lines showing large systematic
blueshifts with respect to rest frame). We discuss major findings on what has
become an intriguing field in active galactic nuclei research and stress the
relevance of blue outliers to feedback and host galaxy evolution.Comment: Accepted for publication in Astrophysics and Space Science, Special
Issue on Line Shifts in Astrophysics and Laboratory Plasm
CIV 1549 as an Eigenvector 1 Parameter for Active Galactic Nuclei
[Abridged] We have been exploring a spectroscopic unification for all known
types of broad line emitting AGN. The 4D Eigenvector 1 (4DE1) parameter space
shows promise as a unification capable of organizing quasar diversity on a
sequence primarily governed by Eddington ratio. This paper considers the role
of CIV 1549 measures with special emphasis on the CIV 1549 line shift as a
principal 4DE1 diagnostic. We use HST archival spectra for 130 sources with S/N
high enough to permit reliable CIV 1549 broad component (BC) measures. We find
a CIV 1549 BC profile blueshift that is strongly concentrated among (largely
radio-quiet: RQ) sources with FWHM(H beta BC) < 4000 km/s (which we call
Population A). Narrow line Seyfert 1 (NLSy1, with FWHM H beta < 2000 km/s)
sources belong to this population but do not emerge as a distinct class. The
systematic blueshift, widely interpreted as arising in a disk wind/outflow, is
not observed in broader lined AGN which we call Population B. We find new
correlations between FWHM(CIV 1549 BC) and CIV 1549 line shift as well as the
equivalent width of CIV 1549. They are seen only in Pop. A sources. CIV 1549
measures enhance the apparent dichotomy at FWHM(Hbeta BC) approx. 4000 \kms\
(Sulentic et al. 2000) suggesting that it has more significance in the context
of Broad Line Region structure than the more commonly discussed RL vs. RQ
dichotomy. Black hole masses computed from FWHM CIV 1549 BC for about 80 AGN
indicate that the CIV 1549 width is a poor virial estimator. Comparison of mass
estimates derived from Hbeta BC and CIV 1549 reveals that the latter show
different and nonlinear offsets for population A and B sources. A significant
number of sources also show narrow line CIV 1549 emission. We present a recipe
for CIV 1549 narrow component extraction.Comment: Accepted for publication in the Astrophysical Journa
Seyfert's Sextet: where is the gas?
Seyfert's Sextet (a.k.a HCG 79) is one of the most compact and isolated
galaxy groups in the local Universe. It shows a prominent diffuse light
component that accounts for ~50% of the total observed light. This likely
indicates that the group is in an advanced evolutionary phase, which would
predict a significant hot gaseous component. Previous X-ray observations had
suggested a low luminosity for this system, but with large uncertainties and
poor resolution. We present the results from a deep (70 ks), high resolution
Chandra observation of Seyfert's Sextet, requested with the aim of separating
the X-ray emission associated with the individual galaxies from that of a more
extended inter-galactic component. We discuss the spatial and spectral
characteristics of this group we derive with those of a few similar systems
also studied in the X-ray band. The high resolution X-ray image indicates that
the majority of the detected emission does not arise in the compact group but
is concentrated towards the NW and corresponds to what appears to be a
background galaxy cluster. The emission from the group alone has a total
luminosity of ~1x10^40 erg/s in the (0.5-5) keV band. Most of the luminosity
can be attributed to the individual sources in the galaxies, and only ~2x10^39
erg/s is due to a gaseous component. However, we find that this component is
also mostly associated with the individual galaxies of the Sextet, leaving
little or no residual in a truly IGM component. The extremely low luminosity of
the diffuse emission in Seyfert's Sextet might be related to its small total
mass.Comment: 8 pages, 7 figures. Accepted on A&
Average UV Quasar Spectra in the Context of Eigenvector 1: A Baldwin Effect Governed by Eddington Ratio?
We present composite UV spectra for low redshift Type 1 AGN binned to exploit
the information content of the Eigenvector 1 (E1) parameter space. Composite
spectra allow a decomposition of the CIV1549 line profile - one of the
strongest high-ionization lines. The simplest CIV decomposition into narrow
(NLR), broad (BLR) and very broad (VBLR) components suggests that different
components have an analog in Hb with two major exceptions. VBLR emission is
seen only in population B (FWHM(Hb)>4000 km/s) sources. A blue
shifted/asymmetric BLR component is seen only in pop. A (FWHM(Hb)<4000 km/s)
HIL such as CIV. The blueshifted component is thought to arise in a wind or
outflow. Our analysis suggests that such a wind can only be produced in pop. A
(almost all radio-quiet) sources where the accretion rate is relatively high.
Comparison between broad UV lines in radio-loud (RL) and radio-quiet (RQ)
sources shows few significant differences. Clear evidence is found for a narrow
CIV component in most radio-loud sources. We find also some indirect
indications that the black hole (BH) spin, rather than BH mass or accretion
rate is a key trigger in determining whether an object will be RL or RQ. We
find a ten-fold decrease in EW CIV with Eddington ratio (decreasing from ~1 to
\~0.01) while NV shows no change. These trends suggest a luminosity-independent
"Baldwin effect" where the physical driver may be the Eddington ratio.Comment: 39 pages, 6 figures. To appear in Ap
Seyfert's Sextet: A Slowly Dissolving Stephan's Quintet?
We present a multiwavelength study of the highly evolved compact galaxy group
known as Seyfert's Sextet (HCG79: SS). We interpret SS as a 2-3 Gyr more
evolved analog of Stephan's Quintet (HCG92: SQ). We postulate that SS formed by
sequential acquisition of 4-5 primarily late-type field galaxies. Four of the
five galaxies show an early-type morphology which is likely the result of
secular evolution driven by gas stripping. Stellar stripping has produced a
massive/luminous halo and embedded galaxies that are overluminous for their
size. These are interpreted as remnant bulges of the accreted spirals. H79d
could be interpreted as the most recent intruder being the only galaxy with an
intact ISM and uncertain evidence for tidal perturbation. In addition to
stripping activity we find evidence for past accretion events. H79b (NGC6027)
shows a strong counter-rotating emission line component interpreted as an
accreted dwarf spiral. H79a shows evidence for an infalling component of gas
representing feedback or possible cross fueling by H79d. The biggest challenge
to this scenario involves the low gas fraction in the group. If SS formed from
normal field spirals then much of the gas is missing. Finally, despite its
advanced stage of evolution, we find no evidence for major mergers and infer
that SS (and SQ) are telling us that such groups coalesce via slow dissolution.Comment: 70 pages, 19 figures, 15 tables - accepted for publication in the
Astronomical Journa
A ~ 12 kpc HI extension and other HI asymmetries in the isolated galaxy CIG 340 (IC 2487)
HI kinematic asymmetries are common in late-type galaxies irrespective of
environment, although the amplitudes are strikingly low in isolated galaxies.
As part of our studies of the HI morphology and kinematics in isolated
late-type galaxies we have chosen several very isolated galaxies from the AMIGA
sample for HI mapping. Here we present GMRT 21-cm HI line mapping of CIG 340
which was selected because its integrated HI spectrum has a very symmetric
profile, Aflux = 1.03. Optical images of the galaxy hinted at a warped disk in
contrast to the symmetric integrated HI spectrum profile. Our aim is to
determine the extent to which the optical asymmetry is reflected in the
resolved HI morphology and kinematics. GMRT observations reveal significant HI
morphological asymmetries in CIG 340 despite it's overall symmetric optical
form and highly symmetric HI spectrum. The most notable HI features are: 1) a
warp in the HI disk (with an optical counterpart), 2) the HI north/south flux
ratio = 1.32 is much larger than expected from the integrated HI spectrum
profile and 3) a ~ 45" (12 kpc) HI extension, containing ~ 6% of the detected
HI mass on the northern side of the disk. We conclude that in isolated galaxies
a highly symmetric HI spectrum can mask significant HI morphological
asymmetries. The northern HI extension appears to be the result of a recent
perturbation (10^8 yr), possibly by a satellite which is now disrupted or
projected within the disk. This study provides an important step in our ongoing
program to determine the predominant source of HI asymmetries in isolated
galaxies. For CIG 340 the isolation from major companions, symmetric HI
spectrum, optical morphology and interaction timescales have allowed us to
narrow the possible causes the HI asymmetries and identify tests to further
constrain the source of the asymmetries.Comment: 10 page
Setting the normalcy level of HI properties in isolated galaxies
Studying the atomic gas (HI) properties of the most isolated galaxies is
essential to quantify the effect that the environment exerts on this sensitive
component of the interstellar medium. We observed and compiled HI data for a
well defined sample of ~ 800 galaxies in the Catalog of Isolated Galaxies, as
part of the AMIGA project (Analysis of the ISM in Isolated GAlaxies,
http://amiga.iaa.es), which enlarges considerably previous samples used to
quantify the HI deficiency in galaxies located in denser environments. By
studying the shape of 182 HI profiles, we revisited the usually accepted result
that, independently of the environment, more than half of the galaxies present
a perturbed HI disk. In isolated galaxies this would certainly be a striking
result if these are supposed to be the most relaxed systems, and has
implications in the relaxation time scales of HI disks and the nature of the
most frequent perturbing mechanisms in galaxies. Our sample likely exhibits the
lowest HI asymmetry level in the local Universe. We found that other field
samples present an excess of ~ 20% more asymmetric HI profiles than that in
CIG. Still a small percentage of galaxies in our sample present large
asymmetries. Follow-up high resolution VLA maps give insight into the origin of
such asymmetries.Comment: 4 pages, 2 figures, Conference 'Galaxies in Isolation: Exploring
Nature vs. Nurture', Granada, 12-15 May 2009. To be published in the ASP
Conference Serie
An Over-Massive Black Hole in a Typical Star-Forming Galaxy, 2 Billion Years After the Big Bang
Supermassive black holes (SMBHs) and their host galaxies are generally
thought to coevolve, so that the SMBH achieves up to about 0.2 to 0.5% of the
host galaxy mass in the present day. The radiation emitted from the growing
SMBH is expected to affect star formation throughout the host galaxy. The
relevance of this scenario at early cosmic epochs is not yet established. We
present spectroscopic observations of a galaxy at redshift z = 3.328, which
hosts an actively accreting, extremely massive BH, in its final stages of
growth. The SMBH mass is roughly one-tenth the mass of the entire host galaxy,
suggesting that it has grown much more efficiently than the host, contrary to
models of synchronized coevolution. The host galaxy is forming stars at an
intense rate, despite the presence of a SMBH-driven gas outflow.Comment: Author's version, including the main paper and the Supplementary
Materials (16+21 pages, 3+3 figures
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