Ian Heywood

Future Science Prospects for AMI

ArXiv e-prints (2012)

Authors:

K Grainge, P Alexander, R Battye, M Birkinshaw, A Blain, M Bremer, S Bridle, M Brown, R Davis, C Dickinson, A Edge, G Efstathiou, R Fender, M Hardcastle, J Hatchell, M Hobson, M Jarvis, B Maughan, I McHardy, M Middleton, A Lasenby, R Saunders, G Savini, A Scaife, G Smith, M Thompson, G White, K Zarb-Adami, J Allison, J Buckle, A Castro-Tirado, M Chernyakova, R Deane, F Feroz, R Genova Santos, D Green, D Hannikainen, I Heywood, N Hurley-Walker, R Kneissl, K Koljonen, S Kulkarni, S Markoff, C MacTavish, M McCollough, S Migliari, JM Miller, J Miller-Jones, M Olamaie, Z Paragi, T Pearson, G Pooley, K Pottschmidt, R Rebolo, J Richer, J Riley, J Rodriguez, C Rodriguez-Gonzalvez, A Rushton, P Savolainen, P Scott, T Shimwell, M Tavani, J Tomsick, V Tudose, K van der Heyden, A van der Horst, A Varlotta, E Waldram, J Wilms, A Zdziarski, J Zwart, Y Perrott, C Rumsey, M Schammel

Radio Detections During Two State Transitions of the Intermediate-Mass Black Hole HLX-1

Science (2012) 1-5

Authors:

N Webb, D Cseh, E Lenc, O Godet, D Barret, S Corbel, S Farrell, R Fender, N Gehrels, I Heywood

Radio Detections During Two State Transitions of the Intermediate-Mass Black Hole HLX-1

SCIENCE 337:6094 (2012) 554-556

Authors:

Natalie Webb, David Cseh, Emil Lenc, Olivier Godet, Didier Barret, Stephane Corbel, Sean Farrell, Robert Fender, Neil Gehrels, Ian Heywood

Detecting cold gas at z = 3 with the Atacama large millimeter/submillimeter array and the square kilometer array

Astrophysical Journal 743:1 (2011)

Authors:

D Obreschkow, I Heywood, S Rawlings

Abstract:

We forecast the abilities of the Atacama Large Millimeter/submillimeter Array (ALMA) and the Square Kilometer Array (SKA) to detect CO and H I emission lines in galaxies at redshift z = 3. A particular focus is set on Milky Way (MW) progenitors at z = 3 since their detection within 24hr constitutes a key science goal of ALMA. The analysis relies on a semi-analytic model, which permits the construction of an MW progenitor sample by backtracking the cosmic history of all simulated present-day galaxies similar to the real MW. Results are as follows: (1) ALMA can best observe an MW at z = 3 by looking at CO(3-2) emission. The probability of detecting a random model MW at 3σ in 24hr using 75 km s-1channels is roughly 50%, and these odds can be increased by co-adding the CO(3-2) and CO(4-3) lines. These lines fall into ALMA band 3, which therefore represents the optimal choice toward MW detections at z = 3. (2) Higher CO transitions contained in the ALMA bands ≥6 will be invisible, unless the considered MW progenitor coincidentally hosts a major starburst or an active black hole. (3) The high-frequency array of SKA, fitted with 28.8GHz receivers, would be a powerful instrument for observing CO(1-0) at z = 3, able to detect nearly all simulated MWs in 24hr. (4) H I detections in MWs at z = 3 using the low-frequency array of SKA will be impossible in any reasonable observing time. (5) SKA will nonetheless be a supreme H I survey instrument through its enormous instantaneous field of view (FoV). A one-year pointed H I survey with an assumed FoV of 410 deg2 would reveal at least 105 galaxies at z = 2.95-3.05. (6) If the positions and redshifts of those galaxies are known from an optical/infrared spectroscopic survey, stacking allows the detection of H I at z = 3 in less than 24hr. © 2011. The American Astronomical Society. All rights reserved.

Exploring the nature of the brightest hyper-luminous X-ray source

Astronomische Nachrichten 332:4 (2011) 392-397

Authors:

SA Farrell, M Servillat, K Wiersema, D Barret, O Godet, I Heywood, TJ Maccarone, SR Oates, B Plazolles, NA Webb

Abstract:

The small subset of hyper-luminous X-ray sources with luminosities in excess of ~1041 erg s-1 are hard to explain without the presence of an intermediate mass black hole, as significantly super-Eddington accretion and/or very small beaming angles are required. The recent discovery of HLX-1, the most luminous object in this class with a record breaking luminosity of ~1042 erg s-1 in the galaxy ESO 243-49, therefore currently provides some of the strongest evidence for the existence of intermediate mass black holes. HLX-1 is almost an order of magnitude brighter than the other hyperluminous sources, and appears to exhibit X-ray spectral and flux variability similar to Galactic stellar mass black hole X-ray binaries. In this paper we review the current state of knowledge on this intriguing source and outline the results of multi-wavelength studies from radio to ultra-violet wavelengths, including imaging and spectroscopy of the recently identified optical counterpart obtained with the Very Large Telescope. These results continue to support an intermediate mass black hole in excess of 500 M⊙. © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.