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Radio-Excess IRAS Galaxies. II. Host Galaxies
This is the second of a series of papers studying a sample ofradio-excess IRAS galaxies. These galaxies have radio emission in excessof that expected due to star formation, but largely fall between thetraditional categories of radio-loud and radio-quiet active galaxies.R-band images of the hosts of far-infrared (FIR)-luminous radio-excessgalaxies are presented and analyzed. The hosts of the FIR-luminousradio-excess galaxies are luminous galaxies, on average 0.8 mag brighterthan M*R. Their optical luminosities andmorphologies are similar to comparison samples of radio-loud compactsteep-spectrum and gigahertz peaked-spectrum sources and extended radiogalaxies. We find a similar fraction of galaxies in our sample (~70%)with companions or distorted morphologies as in radio-loud comparisonsamples. This is consistent with radio activity being associated withtidal interaction. The majority (65%) of the FIR-luminous radio-excessgalaxies have radio source sizes that are smaller than the optical hostby more than an order of magnitude. These compact radio sources may beyoung precursors to classical radio galaxies or a different populationof radio sources, possibly confined by the host interstellar medium. Thehost galaxy types were determined by analysis of the surface brightnessdistributions. The elliptical hosts have effective surface brightnessesand radii consistent with known ellipticals but inconsistent with apopulation of brightest cluster galaxies. Thus, it is unlikely theseobjects are the precursors of FR I radio galaxies. The disk hosts havesmaller sizes and low radio excesses. However, they have a range ofradio source sizes, which is not expected if they are radio-``loud''Seyfert galaxies.
| 21 CM H1 Line Spectra of Galaxies in Nearby Clusters
A compilation of HI line fluxes, systemic velocities and line widths ispresented for \Ndet detected galaxies, mostly in the vicinities of 30nearby rich clusters out to a redshift of z ~ .04, specifically for usein applications of the Tully-Fisher distance method. New 21 cm HI lineprofiles have been obtained for ~ 500 galaxies in 27 Abell clustersvisible from Arecibo. Upper limits are also presented for \Nnod galaxiesfor which HI emission was not detected. In order to provide ahomogeneous line width determination optimized for Tully-Fisher studies,these new data are supplemented by the reanalysis of previouslypublished spectra obtained both at Arecibo and Green Bank that areavailable in a digital archive. Corrections for instrumental broadening,smoothing, signal-to-noise and profile shape are applied, and anestimate of the error on the width is given. When corrected forturbulent broadening and viewing angle, the corrected velocity widthspresented here will provide the appropriate line width parameter neededto derive distances via the Tully-Fisher relation.
| Radio Identifications of Extragalactic IRAS Sources
Extragalactic sources detected at λ= 60 microns were selectedfrom the IRAS Faint Source Catalog, Version 2 by the criterion S_60microns_ >= S_12_ microns. They were identified by positioncoincidence with radio sources stronger than 25 mJy at 4.85 GHz in the6.0 sr declination band 0^deg^ < δ < +75^deg^ (excluding the0.05 sr region 12^h^40^m^< α < 14^h^40^m^, 0^deg^<+5^deg^) and with radio sources stronger than 80 mJy in the 3.4 sr areao^h^ <α < 2o^h^, -40^deg^ < δ < 0^deg^ (plus theregion 12^h^40^m^ < α < 14^h^40^m^, 0^deg^<δ<+5^deg^). Fields containing new candidate identifications weremapped by the VLA at 4.86 GHz with about 15" FWHM resolution. Difficultcases were confirmed or rejected with the aid of accurate (σ ~ 1")radio and optical positions. The final sample of 354 identifications in{OMEGA} = 9.4 sr is reliable and large enough to contain statisticallyuseful numbers of radio-loud FIR galaxies and quasars. The logarithmicFIR radio flux ratio parameter q can be used to distinguish radiosources powered by "starbursts" from those powered by "monsters."Starbursts and normal spiral galaxies in a λ = 60 micronflux-limited sample have a narrow (σ_q_ = 0.14 +/- 0.01) qdistribution with mean = 2.74 +/- 0.01, and none have "warm"FIR spectra [α(25 microns, 60 microns) < 1.5]. The absence ofradio- quiet (but not completely silent) blazars indicates that nearlyall blazars become optically thin at frequencies v<~100 GHz.Nonthermal sources with steep FIR/optical spectra and dusty-embeddedsources visible only at FIR and radio wavelengths must be very rare.
| Radio properties of extragalactic IRAS sources
The present study identifies extragalactic sources from the IRAS FaintSource Catalog by position coincidence with radio sources stronger than25 mJy and lying north of +5 deg on the Green Bank 4.85 GHz sky maps.Published VLA maps, new 4.86 GHz VLA maps made with 15-arcsecresolution, and accurate optical positions are used to confirm 122 ofthese candidate identifications. Normal and starburst spiral galaxieswere found to comprise about 97 percent of the FIR flux-limited sample.Radio-loud 'monsters' with q less than 2.25 dominate the radio emissionfrom about 2 percent of the FIR source sample, and radio-quiet monstersare responsible for the FIR emission from less than about 1 percent ofthe FIR sample. All of the radio-identified sources are opticallyidentified, mostly with relatively bright nearby galaxies. No evidencewas found for any new populations of high-redshift FIR sources,nonthermal sources with steep FIR/optical spectra, or dust-shroudedsources visible only at FIR and radio wavelengths.
| UGC galaxies stronger than 25 mJy at 4.85 GHz
UGC galaxies in the declination band +5 to +75 deg were identified byposition coincidence with radio sources stronger than 25 mJy on theGreen Bank 4.85 GHz sky maps. Candidate identifications were confirmedor rejected with the aid of published aperture-synthesis maps and new4.86 GHz VLA maps having 15 or 18 arcsec resolution, resulting in asample of 347 nearby radio galaxies plus five new quasar-galaxy pairs.The radio energy sources in UGC galaxies were classified as 'starbursts'or 'monsters' on the basis of their infrared-radio flux ratios, infraredspectral indices, and radio morphologies. The rms scatter in thelogarithmic infrared-radio ratio q is not more than 0.16 for starburstgalaxies selected at 4.85 GHz. Radio spectral indices were obtained fornearly all of the UGC galaxies, and S0 galaxies account for adisproportionate share of the compact flat-spectrum (alpha less than0.5) radio sources. The extended radio jets and lobes produced bymonsters are preferentially, but not exclusively, aligned within about30 deg of the optical minor axes of their host galaxies. The tendencytoward minor-axis ejection appears to be independent of radio-sourcesize and is strongest for elliptical galaxies.
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