Hintze Centre for Astrophysical Surveys

The galaxy luminosity function at z ≃ 6 and evidence for rapid evolution in the bright end from z ≃ 7 to 5

Monthly Notices of the Royal Astronomical Society Oxford University Press 452:2 (2015) 1817-1840

Authors:

Rebecca Bowler, JS Dunlop, RJ McLure, HJ McCracken, B Milvang-Jensen, H Furusawa, Y Taniguchi, O Le Fèvre, JPU Fynbo, Matthew Jarvis, B Häußler

Abstract:

We present the results of a search for bright (-22.7 ≤MUV ≤-20.5) Lyman-break galaxies at z≃6 within a total of 1.65 deg < sup > 2 < /sup > of imaging in theUltraVISTA/Cosmological Evolution Survey (COSMOS) and United Kingdom Infrared Telescope Deep Sky Survey (UKIDSS) Ultra Deep Survey (UDS) fields. The deep near-infrared imaging available in the two independent fields, in addition to deep optical (including z′-band) data, enables the sample of z ≃ 6 star-forming galaxies to be securely detected longward of the break (in contrast to several previous studies). We show that the expected contamination rate of our initial sample by cool Galactic brown dwarfs is ≲3 per cent and demonstrate that they can be effectively removed by fitting brown dwarf spectral templates to the photometry. At z ≃ 6, the galaxy surface density in the UltraVISTA field exceeds that in the UDS by a factor of ≃ 1.8, indicating strong cosmic variance even between degree-scale fields at z > 5. We calculate the bright end of the restframe Ultraviolet (UV) luminosity function (LF) at z ≃ 6. The galaxy number counts are a factor of ~1.7 lower than predicted by the recent LF determination by Bouwens et al. In comparison to other smaller area studies, we find an evolution in the characteristic magnitude between z ≃ 5 and z ≃ 7 of δM* ~ 0.4, and show that a double power law or a Schechter function can equally well describe the LF at z = 6. Furthermore, the bright end of the LF appears to steepen from z ≃ 7 to z ≃ 5, which could indicate the onset of mass quenching or the rise of dust obscuration, a conclusion supported by comparing the observed LFs to a range of theoretical model predictions.

Total eclipse of the heart: The AM CVn Gaia14aae / ASSASN-14cn

(2015)

Authors:

HC Campbell, TR Marsh, M Fraser, ST Hodgkin, E de Miguel, BT Gänsicke, D Steeghs, A Hourihane, E Breedt, SP Littlefair, SE Koposov, L Wyrzykowski, G Altavilla, N Blagorodnova, G Clementini, G Damljanovic, A Delgado, M Dennefeld, AJ Drake, J Fernández-Hernández, G Gilmore, R Gualandi, A Hamanowicz, B Handzlik, LK Hardy, DL Harrison, K Ilkiewicz, PG Jonker, CS Kochanek, Z Kolaczkowski, Z Kostrzewa-Rutkowska, R Kotak, G van Leeuwen, G Leto, P Ochner, M Pawlak, L Palaversa, G Rixon, K Rybicki, BJ Shappee, SJ Smartt, MAP Torres, L Tomasella, M Turatto, K Ulaczyk, S van Velzen, O Vince, NA Walton, P Wielgórski, T Wevers, P Whitelock, A Yoldas, F De Angeli, P Burgess, G Busso, R Busuttil, T Butterley, KC Chambers, C Copperwheat, AB Danilet, VS Dhillon, DW Evans, L Eyer, D Froebrich, A Gomboc, G Holland, TW-S Holoien, JF Jarvis, N Kaiser, DA Kann, D Koester, U Kolb, S Komossa, EA Magnier, A Mahabal, J Polshaw, JL Prieto, T Prusti, M Riello, A Scholz, G Simonian, KZ Stanek, L Szabados, C Waters, RW Wilson

Evidence of boosted 13CO/12CO ratio in early-type galaxies in dense environments

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 450:4 (2015) 3874-3885

Authors:

Katherine Alatalo, Alison F Crocker, Susanne Aalto, Timothy A Davis, Kristina Nyland, Martin Bureau, Pierre-Alain Duc, Davor Krajnović, Lisa M Young

Two fast X-ray transients in archival Chandra data

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 450:4 (2015) 3765-3770

Authors:

A Glennie, PG Jonker, RP Fender, T Nagayama, ML Pretorius

$\textit{Herschel}$-ATLAS:The connection between star formation and AGN activity in radio-loud and radio-quiet active galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 452:4 (2015) 3776-3794

Authors:

Gulay Gurkan, Martin J Hardcastle, Matthew Jarvis, Daniel JB Smith, Nathan Bourne, Loretta Dunne, Steve Maddox, Rob J Ivison, Jacopo Fritz

Abstract:

We examine the relationship between star formation and AGN activity by constructing matched samples of local radio-loud and radio-quiet AGN in the HerschelATLAS fields. Radio-loud AGN are classified as high-excitation and low-excitation radio galaxies (HERGs, LERGs) using their emission lines and WISE 22-μm luminosity. AGN accretion and jet powers in these active galaxies are traced by [OIII] emission-line and radio luminosity, respectively. Star formation rates (SFRs) and specific star formation rates (SSFRs) were derived using Herschel 250-μm luminosity and stellar mass measurements from the SDSS MPA-JHU catalogue. In the past, star formation studies of AGN have mostly focused on high-redshift sources to observe the thermal dust emission that peaks in the far-infrared, which limited the samples to powerful objects. However, with Herschel we can expand this to low redshifts. Our stacking analyses show that SFRs and SSFRs of both radio-loud and radioquiet AGN increase with increasing AGN power but that radio-loud AGN tend to have lower SFR. Additionally, radio-quiet AGN are found to have approximately an order of magnitude higher SSFRs than radio-loud AGN for a given level of AGN power. The difference between the star formation properties of radio-loud and -quiet AGN is also seen in samples matched in stellar mass.