ST ScI Preprint #1394

ASCA Observations of the GHz Peaked Spectrum Radio Galaxies 1345+125 and 2352+495

We present ASCA SIS and GIS observations of two GHz peaked spectrum (GPS) radio galaxies, PKS 1345+125 (4C12.50, z = 0.122) and 2352+495 (z = 0.237). In the energy band 2-10 keV, 1345+125 is detected with about 2 × 10⁴³ ergs s^-1, while 2352+495 is not detected with an upper limit < 7 × 10⁴² ergs s^-1. This is the first reported detection of X-ray emission from a GPS radio galaxy. These measurements do not violate predictions of Heinz et al.'s recent evolving source model for radio sources, although deeper X-ray observations are needed for a strong test of the model. The host galaxy of 1345+125 contains two nuclei separated by 2" (4 kpc) which are not resolved by the ASCA observations. We suggest that the X-rays are emitted by the western of the two nuclei, which Gilmore & Shaw have shown has a NLRG/Seyfert-2 optical spectrum and which Evans et al. have recently identified with the GPS radio source. We obtain model dependent estimates for the 1345+125 radio source age of about 3 × 10⁴ yr and expansion velocity of approximately 0.02c. We show that in samples of Seyfert 1's and powerful extended radio galaxies, optical emission-line luminosities are of a strength consistent with photoionization by the embedded active galactic nucleus (AGN; estimated using ASCA observations), and 1345+125 fits this picture assuming the X-ray emission is from the western nucleus. In contrast, the extrapolated limits on the nuclear ionizing continuum in 2352+495 are too low to account for the luminosity of the narrow emission-line region. If this is confirmed by further observations, it would favor a model in which some fraction of the emission lines are powered by shocks induced by the radio source or in which some of the AGN photons that ionize the gas are obscured from our view.

Status:

Appeared in: The Astronomical Journal

Affiliations:

¹⁾Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218, USA
²⁾ Also at Kapteyn Astronomical Institute, University of Groningen
³⁾ Department of Physics, University of Bristol, Tyndall Avenue, Bristol BS8 1TL, England, UK