30 research outputs found
Nowhere to hide: radio-faint AGN in the GOODS-N field: II. Multi-wavelength AGN selection techniques and host galaxy properties
Large scale structure and cosmolog
MERLIN observations of GRS 1915+105 : a progress report
We present a progress report on MERLIN radio imaging of a radio outburst from
GRS 1915+105. The major ejection occurred at the end of an approximately 20-day
`plateau' state, characterised by low/hard X-ray fluxes and a relatively strong
flat-spectrum radio component. Apparent superluminal motions have been mapped
with unprecedented resolution, and imply higher velocities in the jet than
previously derived.Comment: 4 pages, 2 figures. To be published in New Astronomy Reviews, as part
of proceedings of 2nd workshop on Galactic sources with relativistic jet
SKA studies of nearby galaxies : star-formation, accretion processes and molecular gas across all environments
Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike LicenceThe SKA will be a transformational instrument in the study of our local Universe. In particular, by virtue of its high sensitivity (both to point sources and diffuse low surface brightness emission), angular resolution and the frequency ranges covered, the SKA will undertake a very wide range of astrophysical research in the field of nearby galaxies. By surveying vast numbers of nearby galaxies of all types with Jy sensitivity and sub-arcsecond angular resolutions at radio wavelengths, the SKA will provide the cornerstone of our understanding of star-formation and accretion activity in the local Universe. In this chapter we outline the key continuum and molecular line science areas where the SKA, both during phase-1 and when it becomes the full SKA, will have a significant scientific impact.Peer reviewedFinal Published versio
Constraints on the Progenitor System and the Environs of SN 2014J from Deep Radio Observations
We report deep EVN and eMERLIN observations of the Type Ia SN 2014J in the nearby galaxy M82. Our observations represent, together with JVLA observations of SNe 2011fe and 2014J, the most sensitive radio studies of Type Ia SNe ever. By combining data and a proper modeling of the radio emission, we constrain the mass-loss rate from the progenitor system of SN 2014J to (for a wind speed of 100 km s-1). If the medium around the supernova is uniform, then n ISM lesssim 1.3 cm-3, which is the most stringent limit for the (uniform) density around a Type Ia SN. Our deep upper limits favor a double-degenerate (DD) scenario involving two WD stars for the progenitor system of SN 2014J, as such systems have less circumstellar gas than our upper limits. By contrast, most single-degenerate (SD) scenarios, i.e., the wide family of progenitor systems where a red giant, main-sequence, or sub-giant star donates mass to an exploding WD, are ruled out by our observations. (While completing our work, we noticed that a paper by Margutti et al. was submitted to The Astrophysical Journal. From a non-detection of X-ray emission from SN 2014J, the authors obtain limits of M ☉ yr-1 (for a wind speed of 100 km s-1) and n ISM lesssim 3.5 cm-3, for the ρ∝r -2 wind and constant density cases, respectively. As these limits are less constraining than ours, the findings by Margutti et al. do not alter our conclusions. The X-ray results are, however, important to rule out free-free and synchrotron self-absorption as a reason for the radio non-detections.) Our estimates on the limits on the gas density surrounding SN2011fe, using the flux density limits from Chomiuk et al., agree well with their results. Although we discuss the possibilities of an SD scenario passing observational tests, as well as uncertainties in the modeling of the radio emission, the evidence from SNe 2011fe and 2014J points in the direction of a DD scenario for both
Cygnus A - Hot SPOT spectra and the condition of classical hydrodynamics
Wetensch. publicatieFaculteit der Wiskunde en Natuurwetenschappe
Cygnus A - Determination of the physical parameters
Wetensch. publicatieFaculteit der Wiskunde en Natuurwetenschappe
Revisiting a flux recovery systematic error arising from common deconvolution methods used in aperture-synthesis imaging
DATA AVAILABILITY : The data underlying this article will be shared upon reasonable request to the corresponding author.The point-spread function (PSF) is a fundamental property of any astronomical instrument. In interferometers, differing array configurations combined with their uv coverage, and various weighting schemes can produce an irregular but deterministic PSF. As a result, the PSF is often deconvolved using CLEAN-style algorithms to improve image fidelity. In this paper, we revisit a significant effect that causes the flux densities measured with any interferometer to be systematically offset from the true values. Using a suite of carefully controlled simulations, we show that the systematic offset originates from a mismatch in the units of the image produced by these CLEAN-style algorithms. We illustrate that this systematic error can be significant, ranging from a few to tens of per cent. Accounting for this effect is important for current and future interferometric arrays, such as MeerKAT, LOFAR, and the SKA, whose core-dominated configuration naturally causes an irregular PSF. We show that this offset is independent of other systematics, and can worsen due to some factors such as the goodness of the fit to the PSF, the deconvolution depth, and the signal-to-noise ratio of the source. Finally, we present several methods that can reduce this effect to just a few per cent.The Jodrell Bank Centre for Astrophysics, which
is funded by the STFC; the European Union’s Horizon 2020 research and innovation programme; the RADIOBLOCKS project will receive funding from the European Union’s Horizon Europe research and innovation programme; the Development in Africa with Radio Astronomy (DARA) project
funded by STFC. -MERLIN.https://academic.oup.com/mnrashj2023PhysicsNon
Constraining star formation and AGN in z \~ 2 massive galaxies using high-resolution MERLIN radio observations
We present high spatial resolution MERLIN 1.4GHz radio observations of two
high redshift (z~2) sources, RGJ123623 (HDF147) and RGJ123617 (HDF130),
selected as the brightest radio sources from a sample of submillimetre-faint
radio galaxies. They have starburst classifications from their rest-frame UV
spectra. However, their radio morphologies are remarkably compact (<80mas and
<65mas respectively), demanding that the radio luminosity be dominated by
Active Galactic Nuclei (AGN) rather than starbursts. Near-IR imaging (HST
NICMOS F160W) shows large scale sizes (R_(1/2)~0.75", diameters ~12kpc) and SED
fitting to photometric points (optical through the mid-IR) reveals massive
(~5x10^(11) M_sun), old (a few Gyr) stellar populations. Both sources have low
flux densities at observed 24um and are undetected in observed 70um and 850um,
suggesting a low mass of interstellar dust. They are also formally undetected
in the ultra-deep 2Ms Chandra data, suggesting that any AGN activity is likely
intrinsically weak. We suggest both galaxies have evolved stellar populations,
low star formation rates, and low accretion rates onto massive black holes
(10^(8.6) M_sun) whose radio luminosity is weakly beamed (by factors of a few).
A cluster-like environment has been identified near HDF130 by an over-density
of galaxies at z=1.99, reinforcing the claim that clusters lead to more rapid
evolution in galaxy populations. These observations suggest that
high-resolution radio (MERLIN) can be a superb diagnostic tool of AGN in the
diverse galaxy populations at z~2.Comment: 8 pages, 4 figures; accepted for publication in MNRA
A radio jet in the prototypical symbiotic star Z Andromedae
As part of a multiwavelength campaign to observe the 2000-2002 outburst of the prototypical symbiotic star Z Andromedae, we observed this object six times each with the Multi-Element Radio Linked Interferometer Network (MERLIN) and Very Large Array (VLA). The radio flux varied significantly during the course of the optical outburst at all three observation frequencies (1.4, 5, and 15 GHz). A jet-like extension was present in the 2001 September MERLIN image and appeared to be aligned perpendicularly to the plane of the binary orbit. Assuming that the ejection took place at the beginning of the optical outburst, the 0.06-arcsec separation between the peak of the extended emission and the central core implies that the ejected material was moving with a velocity of ~400 km s-1. This extended emission faded on a time-scale of ~ months and was not detected at any other epoch. We consider the implications of jets being a component of a 'prototypical' symbiotic system and compare properties of the observed jet of Z And with those of the jets in X-ray binary systems