The Square Kilometre Array (SKA)

Probing the absorbing haloes around two high-redshift radio galaxies with VLT-UVES

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 338:1 (2003) 263-272

Authors:

MJ Jarvis, RJ Wilman, HJA Röttgering, L Binette

Simultaneous, single pulse observations of radio pulsars: Observing single pulses at a broad frequency range

RADIO PULSARS, PROCEEDINGS 302 (2003) 195-198

Authors:

A Karastergiou, M Kramer, AG Lyne, S Johnston, R Bhat, Y Gupta

The clustering of sub-mJy radio sources in the Bootes Deep Field

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 339:3 (2003) 695-700

Authors:

RJ Wilman, HJA Röttgering, RA Overzier, MJ Jarvis

The mass of radio galaxies from low to high redshift

ESO ASTROPHY SYMP (2003) 148-153

Authors:

MJ Jarvis, S Rawlings, S Eales, KM Blundell, CJ Willott

Abstract:

Using a new radio sample, 6C* designed to find radio galaxies at z > 4 along with the complete 3CRR and 6CE sample we extend the radio galaxy K - z relation to z similar to 4.5. The 6C* K - z data significantly improve delineation of the K - z relation for radio galaxies at high redshift (z > 2). In a spatially flat universe with a cosmological constant (Omega(M) = 0.3 and Omega(A) = 0.7), the most luminous radio sources appear to be associated with galaxies with a luminosity distribution with a high mean (approximate to 5L*), and a low dispersion (sigma similar to 0.5 mag) which formed their stars at epochs corresponding to z greater than or similar to 2.5).

Deep spectroscopy of z ∼ 1 6C radio galaxies - II. Breaking the redshift-radio power degeneracy

Monthly Notices of the Royal Astronomical Society 337:4 (2002) 1407-1416

Authors:

KJ Inskip, PN Best, HJA Röttgering, S Rawlings, G Cotter, MS Longair

Abstract:

The results of a spectroscopic analysis of 3CR and 6C radio galaxies at redshift z ∼ 1 are contrasted with the properties of lower-redshift radio galaxies, chosen to be matched in radio luminosity to the 6C sources studied at z ∼ 1, thus enabling the redshift-radio power degeneracy to be broken. Partial rank correlations and principal component analysis have been used to determine which of redshift and radio power are the critical parameters underlying the observed variation of the ionization state and kinematics of the emission-line gas. [O II]/Hβ is shown to be a useful ionization mechanism diagnostic. Statistical analysis of the data shows that the ionization state of the emission-line gas is strongly correlated with radio power, once the effects of other parameters are removed. No dependence of ionization state on cosmic epoch is observed, implying that the ionization state of the emission-line gas is solely a function of the properties of the active galactic nucleus rather than the host galaxy and/or environment. Statistical analysis of the kinematic properties of the emission-line gas shows that these are strongly correlated independently with both redshift and radio power. The correlation with redshift is the stronger of the two, suggesting that host-galaxy composition or environment may play a role in producing the less extreme gas kinematics observed in the emission-line regions of low-redshift galaxies. For both the ionization and kinematic properties of the galaxies, the independent correlations observed with radio size are stronger than with either radio power or redshift. Radio source age is clearly a determining factor for the kinematics and ionization state of the extended emission-line regions.