Pulsars, transients and relativistic astrophysics

The 6C** sample of steep-spectrum radio sources: II - Redshift distribution and the space density of high-redshift radio galaxies

ArXiv astro-ph/0612268 (2006)

Authors:

Maria J Cruz, Matt J Jarvis, Steve Rawlings, Katherine M Blundell

Abstract:

We use the 6C** sample to investigate the co-moving space density of powerful, steep-spectrum radio sources. This sample, consisting of 68 objects, has virtually complete K-band photometry and spectroscopic redshifts for 32 per cent of the sources. In order to find its complete redshift distribution, we develop a method of redshift estimation based on the K-z diagram of the 3CRR, 6CE, 6C* and 7CRS radio galaxies. Based on this method, we derive redshift probability density functions for all the optically identified sources in the 6C** sample. Using a combination of spectroscopic and estimated redshifts, we select the most radio luminous sources in the sample. Their redshift distribution is then compared with the predictions of the radio luminosity function of Jarvis et al. We find that, within the uncertainties associated with the estimation method, the data are consistent with a constant co-moving space density of steep-spectrum radio sources beyond z > 2.5, and rule out a steep decline.

The 6C** sample of steep-spectrum radio sources: II - Redshift distribution and the space density of high-redshift radio galaxies

(2006)

Authors:

Maria J Cruz, Matt J Jarvis, Steve Rawlings, Katherine M Blundell

Evidence for deceleration in the radio jets of GRS1915+105?

(2006)

Authors:

JCA Miller-Jones, MP Rupen, RP Fender, A Rushton, GG Pooley, RE Spencer

Adapting and expanding the Plateau de Bure interferometer

AIP Conference Proceedings 848 (2006) 857-863

Authors:

A Karastergiou, R Neri

Abstract:

We were recently faced with the following problem: The T-shaped Plateau de Bure Interferometer is expanding its tracks to achieve higher spatial resolution in astronomical images at mm wavelengths. Two more stations for positioning the antennas during observations are being built at the ends of the extended tracks. Which of the given stations should the remaining four antennas occupy to accommodate the new stations? What is the optimal set of antenna configurations, given the new extended one, to achieve necessary coverage of the uv-plane at a variety of spatial resolutions? We present in this paper the solutions to the above questions, resulting from a novel method we have recently developed. The method is based on identifying which placement of elements provides the most appropriate uv-plane sampling. © 2006 American Institute of Physics.

An exact, three-dimensional, time-dependent wave solution in local keplerian flow

Astrophysical Journal 652:2 I (2006) 1020-1027

Authors:

SA Balbus, JF Hawley

Abstract:

We present an exact three-dimensional wave solution to the shearing-sheet equations of motion. The existence of this solution argues against transient amplification as a route to turbulence in unmagnetized disks. Moreover, because the solution covers an extensive dynamical range in wavenumber space, it is an excellent test of the dissipative properties of numerical codes. © 2006. The American Astronomical Society. All rights reserved.