97 research outputs found
GTC Spectra of z ~ 2.3 Quasars: Comparison with Local Luminosity Analogues
[Abridged] Context: The advent of 8-10m class telescopes makes possible for
the first time detailed comparison of quasars with similar luminosity and very
different redshifts. Aims: A search for z-dependent gradients in line emission
diagnostics and derived physical properties by comparing, in a narrow
bolometric luminosity range (log L ~ 46.1 +/- 0.4 [\ergss]), some of the most
luminous local (z < 0.6) quasars with some of the lowest luminosity sources yet
found at redshift z = 2.1 ~ 2.5. Method: Spectra for 22 high z sources were
obtained with the 10.4m Gran Telescopio Canarias (GTC) while the HST (largely
FOS) archive provides a low redshift control sample. Comparison is made in the
context of the 4D Eigenvector 1 formalism meaning that we divide both source
samples into high accreting Population A and low accreting Population B
sources. Results: CIV 1549 shows very similar properties at both redshifts
confirming at high redshift the CIV profile differences between Pop. A and B
that are well established in local quasars. The CIV blueshift that appears
quasi- ubiquitous in higher L sources is found in only half (Pop. A) of quasars
observed in both of our samples. A CIV evolutionary Baldwin effect is certainly
disfavored. We find evidence for lower metallicity in the GTC sample that may
point toward a gradient with z. No evidence for a gradient in black hole mass
or Eddington ratio is found. Conclusions: Spectroscopic differences established
at low redshift are also present in much higher redshift quasars. Given that
our samples involve sources with very similar luminosity the evidence for a
systematic metallicity decrease, if real, points toward an evolutionary effect.
Our samples appear representative of a slow evolving quasar population likely
present at all redshifts.Comment: To appear in Astronomy & Astrophysic
Measures of the Soft X-ray Excess as an Eigenvector 1 Parameter for Active Galactic Nuclei
We present a preliminary analysis of X-ray data of quasars in the context of the 4D eigenvector 1 parameter space (Sulentic et al.2000a, b). 4DE1 serves as a surrogate H-R diagram for representing empirical diversity among quasars and identifying the physical drivers of the diversity. The soft X-ray spectral index (Γ) was adopted as one of the key 4DE1 that correlates contrasting extremes in Type 1 properties. 4DE1 motivated the hypothesis of two quasar populations (A and B) divided by L/L≈0.2. Pop. A is a largely radio-quiet population with FWHM Hβ<4000 km/s and often showing a soft X-ray excess. Pop. B is a mix of radio-quiet and a majority of RL quasars shows only a hard X-ray power-law SED. The X-ray separation was based upon earlier ROSAT and ASCA data but we now confirm this dichotomy with large samples of X-ray spectra obtained with XMM-Newton and SWIFT. One popular idea connects the soft excess in Pop. A quasars as a signature of thermal emission from a hot accretion disk in sources radiating close to the Eddington limit.This research was supported by the Spanish Ministry of Economy and Competitiveness through projects AYA2010-15169 and AYA2013-42227-P and by the Junta de Andalucia project TIC 114. KS acknowledges financial support from the Ministerio de Economia y Competitividad through the Spanish grant BES-2014-069767. The authors thank the referee for useful suggestions. This research made use of the NASA IPAC extragalactic database (NED), which is operated by the JPL under contract with the National Aeronautics and Space Administration. This research has made use of the NED database which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. We thank the SDSS collaboration for providing the extraordinary database and processing tools that made part of this work possible. The SDSS website is http://www.sdss.org/.Peer reviewe
High metal content of highly accreting quasars
We present an analysis of UV spectra of 13 quasars believed to belong to
extreme Population A (xA) quasars, aimed at the estimation of the chemical
abundances of the broad line emitting gas. Metallicity estimates for the broad
line emitting gas of quasars are subject to a number of caveats, although
present data suggest the possibility of an increase along the quasar main
sequence along with prominence of optical Fe II emission. Extreme Population A
sources with the strongest Fe II emission offer several advantages with respect
to the quasar general population, as their optical and UV emission lines can be
interpreted as the sum of a low-ionization component roughly at quasar rest
frame (from virialized gas), plus a blueshifted excess (a disk wind), in
different physical conditions. Specifically, in terms of ionization parameter,
cloud density, metallicity and column density. Capitalizing on these results,
we analyze the component at rest frame and the blueshifted one, exploiting the
dependence (of several intensity line ratios on metallicity ). We find that
the validity of intensity line ratios as metallicity indicators depends on the
physical conditions. We apply the measured diagnostic ratios to estimate the
physical properties of sources such as density, ionization, and metallicity of
the gas. Our results confirm that the two regions (the low-ionization component
and the blue-shifted excess) of different dynamical conditions also show
different physical conditions and suggest metallicity values that are high, and
probably the highest along the quasar main sequence, with . We found some evidence of an overabundance of Aluminium with
respect to Carbon, possibly due to selective enrichment of the broad line
emitting gas by supernova ejecta.Comment: 39 pages, will appear in Ap
Optical and near-UV spectroscopic properties of low-redshift jetted quasars in the main sequence context
This paper presents new optical and near-UV spectra of 11 extremely powerful jetted quasars, with radio to optical flux density ratio &gt;103, which concomitantly cover the low-ionization emission of Mg iiλ2800 and hβ as well as the Fe ii blends in the redshift range 0.35 ≲ z ≲ 1. We aim to quantify broad emission line differences between radio-loud (RL) and radio-quiet (RQ) quasars by using the 4D eigenvector 1 parameter space and its main sequence (MS) and to check the effect of powerful radio ejection on the low-ionization broad emission lines. The hβ and Mg iiλ2800 emission lines were measured by using non-linear multicomponent fittings as well as by analysing their full profile. We found that broad emission lines show large redward asymmetry both in hβ and Mg iiλ2800. The location of our RL sources in a UV plane looks similar to the optical one, with weak Fe iiUV emission and broad Mg iiλ2800. We supplement the 11 sources with large samples from previous work to gain some general inferences. We found that, compared to RQ, our extreme RL quasars show larger median hβ full width at half maximum (FWHM), weaker Fe ii emission, larger MBH, lower Lbol/LEdd, and a restricted bf space occupation in the optical and UV MS planes. The differences are more elusive when the comparison is carried out by restricting the RQ population to the region of the MS occupied by RL sources, albeit an unbiased comparison matching MBH and Lbol/LEdd suggests that the most powerful RL quasars show the highest redward asymmetries in hβ
Low- and high-z highly accreting quasars in the 4D Eigenvector 1 context
Highly accreting quasars are characterized by distinguishing properties in
the 4D eigenvector 1 parameter space that make them easily recognizable over a
broad range range of redshift and luminosity. The 4D eigenvector 1 approach
allows us to define selection criteria that go beyond the restriction to Narrow
Line Seyfert 1s identified at low redshift. These criteria are probably able to
isolate sources with a defined physical structure i.e., a geometrically thick,
optically thick advection-dominated accretion disk (a "slim" disk). We stress
that the importance of highly accreting quasars goes beyond the understanding
of the details of their physics: their Eddington ratio is expected to saturate
toward values of order unity, making them possible cosmological probes.Comment: 21 pages, 7 figures. V2 contains small changes suggested by reader
Quasars as Cosmological Standard Candles
We propose the use of quasars with accretion rate near the Eddington ratio (extreme quasars) as standard candles. The selection criteria are based on the Eigenvector 1 (E1) formalism. Our first sample is a selection of 334 optical quasar spectra from the SDSS DR7 database with a S/N > 20. Using the E1, we define primary and secondary selection criteria in the optical spectral range. We show that it is possible to derive a redshift-independent estimate of luminosity for extreme Eddington ratio sources. Our results are consistent with concordance cosmology but we need to work with other spectral ranges to take into account the quasar orientation, among other constrains
A Main Sequence for Quasars
AD and MM-A acknowledge financial support from the Spanish Ministry for Economy and Competitiveness through grants AYA2013-42227-P and AYA2016-76682-C3-1-P. DD and CN acknowledge support from grants PAPIIT108716, UNAM, and CONACyT221398. EB and NB acknowledge grants 176003 Gravitation and the large scale structure of the Universe and 176001 Astrophysical spectroscopy of extragalactic objects supported by the Ministry of Education and Science of the Republic of Serbia
Quasar massive ionized outflows traced by CIV λ1549 and [OIII]λλ4959,5007
The most luminous quasars (with bolometric luminosities are ≳ 1047 erg/s) show a high prevalence of CIV λ1549 and [OIII]λλ4959,5007 emission line profiles with strong blueshifts. Blueshifts are interpreted as due to Doppler effect and selective obscuration, and indicate outflows occurring over a wide range of spatial scales. We found evidence in favor of the nuclear origin of the outflows diagnosed by [OIII]λλ4959,5007. The ionized gas mass, kinetic power, and mechanical thrust are extremely high, and suggest widespread feedback effects on the host galaxies of very luminous quasars, at cosmic epochs between 2 and 6 Gyr from the Big Bang. In this mini-review we summarize results obtained by our group and reported in several major papers in the last few years with an eye on challenging aspects of quantifying feedback effects in large samples of quasars
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