Документ взят из кэша поисковой машины. Адрес оригинального документа : http://www.sao.ru/cats/doc/SRC_Owen.html
Дата изменения: Wed Mar 18 12:25:11 2015
Дата индексирования: Sun Apr 10 02:28:14 2016
Кодировка:

Поисковые слова: hydrogen
A fast-scan extragalactic source survey at 4.755 GHz [ CATS home ] [ Back to CATS list ] [ ftp ]


1978AJ.....83..685Owen+
1980AJ.....85..351Owen+
1983AJ.....88....1Owen+

A fast-scan extragalactic source survey at 4.755 GHz. I - Source list and radio spectra

OWEN, F. N.; LEDDEN, J. E.; CONDON, J. J.

Astronomical Journal, vol. 88, Jan. 1983, p. 1-15. l.
Abstract
A survey of extragalactic radio sources made using driven declination scans is reported covering an area of about 0.07 sr to a limiting flux density of 35 mJy. The fast-scan survey was carried out at a galactic latitude greater than 17 deg with the NRAO 91-m telescope operating at 4.755 GHz, and the 480 sources detected were reobserved at 1.4 GHz with the National Astronomy and Ionosphere Center 305-m telescope at Arecibo. The survey list, source counts and spectral index distribution are presented, and it is noted that the results confirm previous reports of a monotonic decline in the fraction of flat-spectrum sources with decreasing flux density.

1980AJ.....85..351O

Simultaneous radio spectra of sources with strong millimeter components

Owen, F. N.; Spanger, S. R.; Cotton, W. D. Astronomical Journal, vol. 85, Apr. 1980, p. 351-362.

Abstract

Simultaneous radio spectra (within a 36-day period) are presented for 136 sources with flat or inverted spectra at centimeter wavelengths. Flux densities were measured at up to 11 frequencies ranging from 318 MHz to 90 GHz. At low frequencies (less than 1 GHz) a comparison of our data with previous measurements yielded several new low-frequency variables. The observations below 1 GHz also showed that many flat-spectrum sources have an upturn in their spectra below 1 GHz, probably owing to an optically thin 'halo.' Very few, if any, sources seem to have a real low-frequency cutoff. At 5 GHz, sources with high-frequency turnovers below 30 GHz showed much less variability over one year than those which were stronger than 1 Jy at 90 GHz. H However, sources with S(90) greater than 1 Jy had variations only a little larger at 90 GHz than at 5 GHz. This latter result seems inconsistent with either simple inhomogeneous or relativistic Maxwellian models. Models with relativistic jets close to the line of sight can probably account for most of our results.

1978AJ.....83..685O

Observations of radio sources with flat spectra

Owen, F. N.; Porcas, R. W.; Mufson, S. L.; Moffett, T. J.

Astronomical Journal, vol. 83, July 1978, p. 685-696.

NASA/STI Keywords: CENTIMETER WAVES, RADIANT FLUX DENSITY, RADIO SOURCES (ASTRONOMY), RADIO SPECTRA, UBV SPECTRA, ASTRONOMICAL PHOTOMETRY, OPTICAL EMISSION SPECTROSCOPY, OPTICAL THICKNESS

Abstract

Results are reported for simultaneous or nearly simultaneous optical and radio observations of 237 sources with flat or inverted radio spectra at centimeter wavelengths. The observations include radiometry of all 237 sources at 90 GHz, radiometry of 104 sources at centimeter wavelengths (central frequencies of 1.379, 4.585, 15.064, and 22.185 GHz), and optical photometry of nine sources transformed to the Johnson UBV system. Optical results are briefly discussed for the sources 1305+32 and 0851+20 (OJ 287), and the 90-GHz flux-density distribution is analyzed. The radio spectra of the sources are examined, variability at 90 GHz is investigated, and models for the radio emission are considered. It is shown that: (1) the sources tend to have flat radio spectra over the range from 1 to 100 GHz; (2) the weaker sources at 90 GHz have spectra which tend to turn over at or near 5 GHz; (3) sources which turn over at higher frequencies tend to be brighter optically; (4) BL Lac objects tend to have flat spectra; (5) most of the strong sources are consistent with a 90-GHz variability of less than 30% for one year; and (6) one or more components with inhomogeneous structure are likely to exist in most of the strong millimeter sources.