/ftp/cats/8/30



==========================================================================
VIII/30     5C14/5C15/5C16 Radio Survey at 408 and 1407 MHz (Benn+ 1991)
The following files can be converted to FITS (extension .fit .fgz or .fiZ)
	5crssv.dat
==========================================================================
Query from: http://vizier.cds.unistra.fr/viz-bin/VizieR?-source=VIII/30
==========================================================================

drwxr-xr-x 112 cats archive 4096 Nov 7 15:27 [Up] drwxr-xr-x 2 cats archive 261 Jan 12 2023 [TAR file] -rw-r--r-- 1 cats archive 457 Dec 19 2022 .message -r--r--r-- 1 cats archive 7676 Aug 17 1998 ReadMe -r--r--r-- 1 cats archive 12985 Jul 14 1994 5crssv.dat.gz [txt] [txt.gz] [fits] [fits.gz] [html] -rw-r--r-- 1 cats archive 1026 Mar 5 2013 +footg5.gif -rw-r--r-- 1 cats archive 2276 Mar 5 2013 +footg8.gif
Beginning of ReadMe : VIII/30 5C14/5C15/5C16 Radio Survey at 408 and 1407 MHz (Benn+ 1991) ================================================================================ The 5C14, 5C15, and 5C16 Radio Source Surveys of the 5C12 Area Benn C.R., Kenderdine S. <Mon. Not. Roy. Astron. Soc. 251, 253 (1991)> =1991MNRAS.251..253B ================================================================================ ADC_Keywords: Galactic pole, north ; Radio sources ; Surveys Description: This catalog contains the fourteenth, fifteenth, and sixteenth sections of the 5C Cambridge survey of radio sources. This catalog reports further 408 and 1407 MHz observations of the 5C12 area (Benn et al. 1982), which were carried out with the One-Mile Telescope at Cambridge to provide more accurate positions for the 5C12 sources and to extend the 5C12 catalog. Positions and flux densities were measured for 691 sources in a 5 degree x 5 degree area near the north galactic pole. The catalog data include the serial (source) number, right ascension (B1950.0) and declination (B1950.0), rms uncertainty in 408 MHz position, peak 408 MHz flux density and rms uncertainty, effective envelope attenuation (P_eff) at 408 MHz, difference between the 408 MHz and 1407 MHz positions, rms uncertainty in 1407 MHz position, peak 1407 MHz flux density and uncertainty, envelope attenuation P at 1407 MHz and radio spectral index between 408 MHz and 1407 MHz.