Prof. Matt Jarvis

Wide-field 1-2 GHz research on galaxy evolution – synergies with multi-wavelength surveys

ArXiv e-prints (2009)

Discovery of a Giant Lyα Emitter Near the Reionization Epoch

\apj 696 (2009) 1164-1175-1164-1175

Authors:

M Ouchi, Y Ono, E Egami, T Saito, M Oguri, PJ McCarthy, D Farrah, N Kashikawa, I Momcheva, K Shimasaku, K Nakanishi, H Furusawa, M Akiyama, JS Dunlop, AMJ Mortier, S Okamura, M Hayashi, M Cirasuolo, A Dressler, M Iye, MJ Jarvis, T Kodama, CL Martin, RJ McLure, K Ohta, T Yamada, M Yoshida

SPACE: The spectroscopic all-sky cosmic explorer

Experimental Astronomy 23:1 (2009) 39-66

Authors:

A Cimatti, M Robberto, C Baugh, SVW Beckwith, R Content, E Daddi, G De Lucia, B Garilli, L Guzzo, G Kauffmann, M Lehnert, D MacCagni, A Martínez-Sansigre, F Pasian, IN Reid, P Rosati, R Salvaterra, M Stiavelli, Y Wang, MZ Osorio, M Balcells, M Bersanelli, F Bertoldi, J Blaizot, D Bottini, R Bower, A Bulgarelli, A Burgasser, C Burigana, RC Butler, S Casertano, B Ciardi, M Cirasuolo, M Clampin, S Cole, A Comastri, S Cristiani, JG Cuby, F Cuttaia, A De Rosa, AD Sanchez, M Di Capua, J Dunlop, X Fan, A Ferrara, F Finelli, A Franceschini, M Franx, P Franzetti, C Frenk, JP Gardner, F Gianotti, R Grange, C Gruppioni, A Gruppuso, F Hammer, L Hillenbrand, A Jacobsen, M Jarvis, R Kennicutt, R Kimble, M Kriek, J Kurk, JP Kneib, O Le Fevre, D MacChetto, J MacKenty, P Madau, M Magliocchetti, D Maino, N Mandolesi, N Masetti, R McLure, A Mennella, M Meyer, M Mignoli, B Mobasher, E Molinari, G Morgante, S Morris, L Nicastro, E Oliva, P Padovani, E Palazzi, F Paresce, AP Garrido, E Pian, L Popa, M Postman, L Pozzetti, J Rayner, R Rebolo, A Renzini, H Röttgering, E Schinnerer, M Scodeggio, M Saisse, T Shanks, A Shapley, R Sharples

Abstract:

We describe the scientific motivations, the mission concept and the instrumentation of SPACE, a class-M mission proposed for concept study at the first call of the ESA Cosmic-Vision 2015-2025 planning cycle. SPACE aims to produce the largest three-dimensional evolutionary map of the Universe over the past 10 billion years by taking near-IR spectra and measuring redshifts for more than half a billion galaxies at 0∈<∈z∈<∈2 down to AB~23 over 3π sr of the sky. In addition, SPACE will also target a smaller sky field, performing a deep spectroscopic survey of millions of galaxies to AB~26 and at 2∈<∈z∈<∈10∈+. These goals are unreachable with ground-based observations due to the ≈500 times higher sky background (see e.g. Aldering, LBNL report number LBNL-51157, 2001). To achieve the main science objectives, SPACE will use a 1.5 m diameter Ritchey-Chretien telescope equipped with a set of arrays of Digital Micro-mirror Devices covering a total field of view of 0.4 deg2, and will perform large-multiplexing multi-object spectroscopy (e.g. ≈6000 targets per pointing) at a spectral resolution of R~400 as well as diffraction-limited imaging with continuous coverage from 0.8 to 1.8 μm. Owing to the depth, redshift range, volume coverage and quality of its spectra, SPACE will reveal with unique sensitivity most of the fundamental cosmological signatures, including the power spectrum of density fluctuations and its turnover. SPACE will also place high accuracy constraints on the dark energy equation of state parameter and its evolution by measuring the baryonic acoustic oscillations imprinted when matter and radiation decoupled, the distance-luminosity relation of cosmological supernovae, the evolution of the cosmic expansion rate, the growth rate of cosmic large-scale structure, and high-z galaxy clusters. The datasets from the SPACE mission will represent a long lasting legacy for the whole astronomical community whose data will be mined for many years to come. © 2008 Springer Science+Business Media B.V.

Future investigations of GPS and CSS radio sources with LOFAR

Astronomische Nachrichten 330 (2009) 297-297

Authors:

IAG Snellen, HJA Röttgering, PD Barthel, PN Best, M Brüggen, JE Conway, MJ Jarvis, MD Lehnert, GK Miley, R Morganti

An 80-kpc Lyα halo around a high-redshift type-2 quasi-stellar object

Monthly Notices of the Royal Astronomical Society 393:1 (2009) 309-316

Authors:

DJB Smith, MJ Jarvis, C Simpson, A Martínez-Sansigre

Abstract:

We announce the discovery of an extended emission-line region associated with a high-redshift type-2 quasi-stellar object (QSO). The halo, which was discovered in our new wide-field narrow-band survey, resides at z = 2.85 in the Spitzer First Look Survey region and is extended over ∼80 kpc. Deep very long baseline interferometry (VLBI) observations imply that approximately 50 per cent of the radio emission is extended on scales >200 pc. The inferred active galactic nuclei (AGN) luminosity is sufficient to ionize the extended halo, and the optical emission is consistent with being triggered coevally with the radio source. The Lyα halo is as luminous as those found around high-redshift radio galaxies; however, the active nucleus is several orders of magnitude less luminous at radio wavelengths than those Fanarof-Riley type II (FRIIs) more commonly associated with extended emission-line regions. AMS05 appears to be a high-redshift analogue to the radio-quiet quasar E1821+643 which is core dominated, but which also exhibits extended Fanarof-Riley type I (FRI)-like structure and contains an optically powerful AGN. We also find evidence for more quiescent kinematics in the Lyα emission line in the outer regions of the halo, reminiscent of the haloes around the more powerful FRIIs. The optical to mid-infrared spectral energy distribution is well described by a combination of an obscured QSO (Lbol ∼ 3.4 ± 0.2 × 1013 L⊙) and a 1.4 Gyr old simple stellar population with mass ∼3.9 ± 0.3 × 10 11 M⊙. © 2009 RAS.