133 research outputs found
The black hole mass of BL Lacs from stellar velocity dispersion of the host galaxy
We present the first results from our on-going program to estimate black hole
masses [M(BH)] of nearby BL Lac objects. The estimates are based on stellar
velocity dispersion (sigma) of the BL Lac host galaxies from optical
spectroscopy, and the recently found tight correlation between M{BH} and sigma
in nearby early-type galaxies. For the first three BL Lacs, we find log M(BH) =
7.5 - 8.7 and M(BH)/M(host) = 0.03 - 0.1.Comment: 2 pages, to appear in ESO Astrophysics Symposium "The Mass of
Galaxies at Low and High Redshift", eds. R. Bender & A. Renzin
The BH mass of nearby QSOs: a comparison of the bulge luminosity and virial methods
We report on the analysis of the photometric and spectroscopic properties of
a sample of 29 low redshift (z<0.6) QSOs for which both HST WFPC2 images and
ultraviolet HST FOS spectra are available. For each object we measure the R
band absolute magnitude of the host galaxy, the CIV (1550A) line width and the
1350A continuum luminosity. From these quantities we can estimate the black
hole (BH) mass through the M(BH)-L(bulge) relation for inactive galaxies, and
from the virial method based on the kinematics of the regions emitting the
broad lines. The comparison of the masses derived from the two methods yields
information on the geometry of the gas emitting regions bound to the massive
BH. The cumulative distribution of the line widths is consistent with that
produced by matter laying in planes with inclinations uniformly distributed
between 10 and 50 deg, which corresponds to a geometrical factor f=1.3. Our
results are compared with those of the literature and discussed within the
unified model of AGN.Comment: 10 pages, 6 figures. To appear in MNRA
Spectroscopy of BL Lac objects of extraordinary luminosity
Aims. We aim to determine the redshift (or stringent lower limits) of a
number of bright BL Lacs objects. Methods. We secured medium resolution optical
and near-infrared spectra of 4 bright BL Lac objects of unknown redshift using
the spectrograph X-Shooter at the ESO-VLT. Results. In spite of the high
quality of the spectra and the extended spectral range of the observations we
have not detected intrisic spectral features for these sources. However we are
able to provide strigent lower limits to their redshift. In particular, for the
two TeV sources PG 1553+113 and H 1722+119 we infer z > 0.30 and z > 0.35
respectively. We also detect an intervening Ca II absorption doublet in the
spectrum of MH 2136-428 that is ascribed to the the halo of a nearby giant
elliptical galaxy at \sim 100 kpc of projected distance. Conclusions. Under the
hypothesis that all BL Lacs are hosted by luminous bulge dominated galaxies,
the present state of art spectroscopic observations of bright BL Lacs indicate
that these objects are likely sources with extremely beamed nuclear emission .
We present simulations to show under which circustances it will be possible to
probe this hypothesis from the detection of very weak absorptions using the
next generation of extremely large optical telescopes.Comment: Accepted for publication in A&
X--Ray Spectra from Neutron Stars Accreting at Low Rates
The spectral properties of X--ray radiation produced in a static atmosphere
around a neutron star accreting at very low rates are investigated. Previous
results by Alme \& Wilson (1973) are extended to the range to include the typical luminosities, , expected from isolated neutron stars
accreting the interstellar medium. The emergent spectra show an overall
hardening with respect to the blackbody at the neutron star effective
temperature in addition to a significant excess over the Wien tail. The
relevance of present results in connection with the observability of
low--luminosity X--ray sources is briefly discussed.Comment: 14 pages (3 postscript figures available on request), PlainTex,
submitted to Ap
Spherical Accretion onto Neutron Stars Revisited: Are Hot Solutions Possible ?
Stationary, spherical accretion onto an unmagnetized neutron star is here
reconsidered on the wake of the seminal paper by Zel'dovich \& Shakura (1969).
It is found that new ``hot'' solutions may exist for a wide range of
luminosities. These solutions are characterized by a high temperature,
K, and arise from a stationary equilibrium model where the
dominant radiative mechanisms are multiple Compton scattering and
bremsstrahlung emission. For low luminosities, \mincir 10^{-2} \ L_{E}, only
the ``cold'' (\`a la Zel'dovich and Shakura) solution is present.Comment: 11 pages (3 postscript files figures available on request), PlainTeX,
Ref. SISSA 21/94/
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