Pulsars, transients and relativistic astrophysics

The carbon abundance in main-sequence B-type stars towards the Galactic anti-centre

Astronomy and Astrophysics 332:2 (1998) 681-685

Authors:

RE Hibbins, PL Dufton, SJ Smartt, WRJ Rolleston

Abstract:

Differential carbon abundances (based on the C II doublet at 6580Å) are presented for eight early type stars, towards the Galactic anti-centre. All the stars have similar atmospheric parameters with effective temperatures in the range 25000 - 29000 K and surface gravities between logg = 3.9 - 4.3 dex. The derived photospheric abundances vary by up to 0.6 dex, and with the exception of one star, RLWT-41, the differential abundances are found to be closely correlated with those of nitrogen. This implies that both elements may have been formed by similar mechanisms and that the lack of correlation between the nitrogen and oxygen abundances previously found in this sample is not directly due to CNO-processed core material being mixed to the stellar surface.

Radio observations of IRAS selected southern hemisphere classical Be stars

(1998)

Authors:

JS Clark, IA Steele, RP Fender

The 1996 Outburst of GRO J1655-40: The Challenge of Interpreting the Multi-wavelength Spectra

(1998)

Authors:

RI Hynes, CA Haswell, CR Shrader, W Chen, K Horne, ET Harlaftis, K O'Brien, C Hellier, RP Fender

A radio-jet -- galaxy interaction in 3C441

ArXiv astro-ph/9803017 (1998)

Authors:

Mark Lacy, Steve Rawlings, Katherine M Blundell, Susan E Ridgway

Abstract:

Multi-wavelength imaging and spectroscopy of the z=0.708 radio galaxy 3C441 and a red aligned optical/infrared component are used to show that the most striking aspect of the radio-optical ``alignment effect'' in this object is due to the interaction of the radio jet with a companion galaxy in the same group or cluster. The stellar population of the red aligned continuum component is predominately old, but with a small post-starburst population superposed, and it is surrounded by a low surface-brightness halo, possibly a face-on spiral disc. The [OIII]500.7/[OII]372.7 emission line ratio changes dramatically from one side of the component to the other, with the low-ionisation material apparently having passed through the bow shock of the radio source and been compressed. A simple model for the interaction is used to explain the velocity shifts in the emission line gas, and to predict that the ISM of the interacting galaxy is likely to escape once the radio source bow shock has passed though. We also discuss another, much fainter, aligned component, and the sub-arcsecond scale alignment of the radio source host galaxy. Finally we comment on the implications of our explanation of 3C441 for theories of the alignment effect.

A radio-jet -- galaxy interaction in 3C441

(1998)

Authors:

Mark Lacy, Steve Rawlings, Katherine M Blundell, Susan E Ridgway