Bibcode
Mantovani, F.; Mack, K.-H.; Montenegro-Montes, F. M.; Rossetti, A.; Kraus, A.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 502, Issue 1, 2009, pp.61-65
Fecha de publicación:
7
2009
Revista
Número de citas
34
Número de citas referidas
34
Descripción
Aims: We completed observations with the Effelsberg 100-m radio
telescope to measure the polarised emission from a complete sample of
compact steep-spectrum sources and improve our understanding of the
physical conditions inside and around regions of radio emission embedded
in dense interstellar environments. Methods: We observed the
sources at four different frequencies, namely 2.64 GHz, 4.85 GHz, 8.35
GHz, and 10.45 GHz, making use of the polarimeters available at the
Effelsberg telescope. We complemented these measurements with
polarisation parameters at 1.4 GHz derived from the NRAO VLA Sky Survey.
Previous single dish measurements were taken from the catalogue of
Tabara and Inoue. Results: The depolarisation index DP was
computed for four pairs of frequencies. A drop in the fractional
polarisation appeared in the radio emission when observing at
frequencies below ~2 GHz. Rotation measures were derived for about 25%
of the sources in the sample. The values, in the source rest frame,
range from about -20 rad m-2 found for 3C 138 to 3900 rad
m-2 in 3C 119. In all cases, the λ2 law is
closely followed. Conclusions: The presence of a foreground screen
as predicted by the Tribble model or with “partial coverage”
as defined by ourselves can explain the polarimetric behaviour of the
CSS sources detected in polarisation by the present observations.
Indication of repolarisation at lower frequencies was found for some
sources. A case of possible variability in the fractional polarisation
is also suggested. The most unexpected result was found for the
distribution of the fractional polarisations versus the linear sizes of
the sources. Our results appear to disagree with the findings of Cotton
and collaborators and Fanti and collaborators for the B3-VLA sample of
CSS sources, the so-called “Cotton effect”, i.e., a strong
drop in polarised intensity for the most compact sources below a given
frequency. This apparent contradiction may, however, be caused by the
large contamination of the sample by quasars with respect to the B3-VLA.
Tables [see full textsee full textsee full text]-[see full textsee full
textsee full text] and Appendices are only available in electronic form
at http://www.aanda.org