An analysis of radio and FIR emission in over 1500 IRAS selected galaxies p
roduces a good linear correlation between radio and FIR luminosity, indicat
ing that star formation in normal field galaxies dominates the infrared lum
inosity in the local volume. Galaxies with clear radio-excess (defined as h
aving at least 5 times larger radio flux over expected from FIR) are identi
fied as hosting a radio AGN, and they account for only about 1% of the whol
e sample. This fraction increases to 10% among the more luminous galaxies w
ith L-1.4GHz greater than or equal to 10(23) W Hz(-1) (equivalently L-60 mu
m greater than or equal to 10(11) L.), however. The characteristic mid-IR
excess of a Seyfert nucleus is ubiquitously present among the radio-excess
objects, suggesting that mid-IR excess is a robust tracer of an AGN despite
the high mid-IR opacity. We conclude that about 30% of the luminous infrar
ed galaxies (L-60 mu m greater than or equal to 10(11) L.) host an AGN base
d on the mid-IR excess, and about 40% of the mid-IR excess AGNs also host a
radio AGN.
A VLA imaging survey of a distance limited sample of IR luminous galaxies h
as revealed the presence of 100 kpc scale giant radio plumes in 3 out of 9
cases (Mrk 231, Mrk 273, NGC 6240). Their large spatial extent, energetics,
and presence of a powerful AGN in each case suggests that an AGN is the po
wer source. Such plumes are not detected in other ultraluminous infrared ga
laxies which lack clear evidence for an AGN, such as Arp 220.