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|Radio Emission from Galaxies in the Las Campanas Redshift Survey|
To increase the redshift range and look-back time over which the radioluminosity function can be measured directly, we identified 1157galaxies in the Las Campanas Redshift Survey (LCRS) having isophotal(red) magnitudes m_iso<=18.0 with radio sources brighter than 2.5 mJybeam^-1 in the 1.4 GHz NRAO VLA Sky Survey (NVSS). Since the NVSS has45" FWHM angular resolution, these radio and optical limits includenearly all LCRS galaxies with 1.4 GHz luminosities L>=10^22.4 W Hz^-1at z~0.05 to L>=10^23.6 W Hz^-1 at z~0.2. The mean redshift~0.14 of the radio-detected galaxies is higher than the meanredshift ~0.10 of the optical sample. This indicates that,statistically, the radio emission was detected from galaxies with thehighest optical luminosities. Of the 1157 galaxies, 261 were alsoidentified with far-infrared (FIR) sources in the IRAS Point SourceCatalog and Faint Source Catalog. The principal radio energy sources inall identified galaxies were classified as either ``starburst'' or``AGN'' on the basis of their FIR-radio flux ratios, FIR spectralindices, and radio-optical flux ratios. We show that the radio-opticalflux ratio can be effectively used to classify the dominant energysource for the radio emission even if FIR fluxes and radio morphologicaldata are not available.
|A comparative study of morphological classifications of APM galaxies|
We investigate the consistency of visual morphological classificationsof galaxies by comparing classifications for 831 galaxies from sixindependent observers. The galaxies were classified on laser print copyimages or on computer screen using scans made with the Automated PlateMeasuring (APM) machine. Classifications are compared using the RevisedHubble numerical type index T. We find that individual observers agreewith one another with rms combined dispersions of between 1.3 and 2.3type units, typically about 1.8 units. The dispersions tend to decreaseslightly with increasing angular diameter and, in some cases, withincreasing axial ratio (b/a). The agreement between independentobservers is reasonably good but the scatter is non-negligible. In spiteof the scatter, the Revised Hubble T system can be used to train anautomated galaxy classifier, e.g. an artificial neural network, tohandle the large number of galaxy images that are being compiled in theAPM and other surveys.
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