479 research outputs found
The nature of close companions of the BL Lac Objects 1ES 0502+675 and 1ES 1440+122
We report on deep radio images and optical spectroscopy of two BL Lac objects
that have very close compact companions. The two targets, 1ES 0502+675 and 1ES
1440+122, were selected from the HST imaging survey of 110 BL Lacs as
candidates for possible gravitational lensing. The new observations clearly
demonstrate that the companion objects are not secondary images of the active
nuclei but, in spite of the relatively low chance projection probability,
foreground Galactic stars. Gravitational lensing appears to be unimportant to
the BL Lac phenomenon. We discuss the radio properties of the BL Lac objects in
the context of standard beaming models, and show they are as expected for
beamed FRI radio galaxies.Comment: 13 pages, 5 figures, ApJ in pres
Optical surface photometry of radio galaxies - II. Observations and data analysis
Optical imaging observations for 50 radio galaxies are presented. For each
object isophotal contours, photometric profiles, structural parameters
(position angle, ellipticity, Fourier coefficients), and total magnitudes are
given. These observations, obtained in the Cousins R band, complement the data
presented in a previous paper and are part of a larger project aimed at
studying the optical properties of low redshift (z<0.12) radio galaxies (Govoni
et al. 1999). Comments for each individual source are reported.Comment: 9 pages, plus 17 .gif figures, accepted by Astronomy and
Astrophysics, Supplement Serie
The Near-IR-Optical-UV Emission of BL Lacertae Objects
Near--infrared, optical and ultraviolet quasi--simultaneous observations of
11 BL Lacertae objects are reported. For all but one source the dereddened
spectral flux distribution in the Hz frequency
range can be described by a single power law f with
average spectral index = 0.88 0.42 (standard deviation) plus,
where relevant, the contribution of the host galaxy. In most cases the non
simultaneous soft X--ray fluxes obtained by the {\it Einstein Observatory} lie
on or below the extrapolation of the power law. The results are compared with
the average spectral properties of other samples of BL Lacs studied separately
in the IR--optical and in the UV bands. The implications for existing models of
the objects are shortly discussed.Comment: 23 pages, latex file, 2 figures available as postscript files
appended at the end of the latex text file, Ref. S.I.S.S.A. 31/94/
Blue colours of BL Lac host galaxies
Near-infrared and optical imaging of BL Lac host galaxies is used to
investigate their colour properties. We find that the R-H colour and colour
gradient distributions of the BL Lac hosts are much wider than those for normal
ellipticals, and many objects have very blue hosts and/or steep colour
gradients. The blue colours are most likely caused by recent star formation.
The lack of obvious signs of interaction may, however, require a significant
time delay between the interaction event with associated star formation
episodes and the onset of the nuclear activity.Comment: 2 pages, 1 figure, to appear in the proceedings of "The Interplay
among Black Holes, Stars and ISM in Galactic Nuclei", IAU 222, eds. T.
Storchi Bergmann, L.C. Ho, and H.R. Schmit
On the distance of PG 1553+11. A lineless BL Lac object active in the TeV band
Context: The redshift of PG 1553+11, a bright BL Lac object (V~14), is still
unknown. It has been recently observed in the TeV band, a fact that offers an
upper limit for the redshift z<0.4. Aims: We intend to provide a lower limit
for the distance of the object. Methods: We used a chi^2 procedure to constrain
the apparent magnitude of the host galaxy in archived HST images. Supposing
that the host galaxy is typical of BL Lac objects (M_{R} -22.8), a lower limit
to the distance can be obtained from the limit on the apparent magnitude of the
host galaxy. Results: Using the 3 sigma limit on the host galaxy magnitude, the
redshift is found to be greater or equal to 0.25. Conlusions: The redshift of
PG 1553+11 is probably in the range z=0.3-0.4, making this object the most
distant extragalactic source so far detected in the TeV energies. We suggest
that other bright BL Lac objects of unknown redshift and similar spectroscopic
characteristics may be interesting targets for TeV observations.Comment: Accepted for publication in A&A letters, 4 pages, 5 figure
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