Hintze Centre for Astrophysical Surveys

HELP: the Herschel Extragalactic Legacy Project

Monthly Notices of the Royal Astronomical Society Oxford University Press 507:1 (2021) 129-155

Authors:

R Shirley, K Duncan, Mc Campos Varillas, Pd Hurley, K Malek, Y Roehlly, Mwl Smith, H Aussel, T Bakx, V Buat, D Burgarella, N Christopher, S Duivenvoorden, S Eales, A Efstathiou, Ea Gonzalez Solares, M Griffin, M Jarvis, B Lo Faro, L Marchetti, I McCheyne, A Papadopoulos, K Penner, E Pons, M Prescott, E Rigby, H Rottgering, A Saxena, J Scudder, M Vaccari, L Wang, Sj Oliver

Abstract:

We present the Herschel Extragalactic Legacy Project (HELP). This project collates, curates, homogenizes, and creates derived data products for most of the premium multiwavelength extragalactic data sets. The sky boundaries for the first data release cover 1270 deg2 defined by the Herschel SPIRE extragalactic survey fields; notably the Herschel Multi-tiered Extragalactic Survey (HerMES) and the Herschel Atlas survey (H-ATLAS). Here, we describe the motivation and principal elements in the design of the project. Guiding principles are transparent or 'open' methodologies with care for reproducibility and identification of provenance. A key element of the design focuses around the homogenization of calibration, meta data, and the provision of information required to define the selection of the data for statistical analysis. We apply probabilistic methods that extract information directly from the images at long wavelengths, exploiting the prior information available at shorter wavelengths and providing full posterior distributions rather than maximum-likelihood estimates and associated uncertainties as in traditional catalogues. With this project definition paper, we provide full access to the first data release of HELP; Data Release 1 (DR1), including a monolithic map of the largest SPIRE extragalactic field at 385 deg2 and 18 million measurements of PACS and SPIRE fluxes. We also provide tools to access and analyse the full HELP data base. This new data set includes far-infrared photometry, photometric redshifts, and derived physical properties estimated from modelling the spectral energy distributions over the full HELP sky. All the software and data presented is publicly available.

Gaia Photometric Science Alerts

(2021)

Authors:

ST Hodgkin, DL Harrison, E Breedt, T Wevers, G Rixon, A Delgado, A Yoldas, Z Kostrzewa-Rutkowska, Ł Wyrzykowski, M van Leeuwen, N Blagorodnova, H Campbell, D Eappachen, M Fraser, N Ihanec, SE Koposov, K Kruszyńska, G Marton, KA Rybicki, AGA Brown, PW Burgess, G Busso, S Cowell, F De Angeli, C Diener, DW Evans, G Gilmore, G Holland, PG Jonker, F van Leeuwen, F Mignard, PJ Osborne, J Portell, T Prusti, PJ Richards, M Riello, GM Seabroke, NA Walton, Péter Ábrahám, G Altavilla, SG Baker, U Bastian, P O'Brien, J de Bruijne, T Butterley, JM Carrasco, J Castañeda, JS Clark, G Clementini, CM Copperwheat, M Cropper, G Damljanovic, M Davidson, CJ Davis, M Dennefeld, VS Dhillon, C Dolding, M Dominik, P Esquej, L Eyer, C Fabricius, M Fridman, D Froebrich, N Garralda, A Gomboc, JJ González-Vidal, R Guerra, NC Hambly, LK Hardy, B Holl, A Hourihane, J Japelj, DA Kann, C Kiss, C Knigge, U Kolb, S Komossa, Á Kóspál, G Kovács, M Kun, G Leto, F Lewis, SP Littlefair, AA Mahabal, CG Mundell, Z Nagy, D Padeletti, L Palaversa, A Pigulski, ML Pretorius, W van Reeven, VARM Ribeiro, M Roelens, N Rowell, N Schartel, A Scholz, A Schwope, BM Sipőcz, SJ Smartt, MD Smith, I Serraller, D Steeghs, M Sullivan, L Szabados, E Szegedi-Elek, P Tisserand, L Tomasella, S van Velzen, PA Whitelock, RW Wilson, DR Young

The SAMI Galaxy Survey: the third and final data release

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 505:1 (2021) 991-1016

Authors:

Scott M Croom, Matt S Owers, Nicholas Scott, Henry Poetrodjojo, Brent Groves, Jesse van de Sande, Tania M Barone, Luca Cortese, Francesco D’Eugenio, Joss Bland-Hawthorn, Julia Bryant, Sree Oh, Sarah Brough, James Agostino, Sarah Casura, Barbara Catinella, Matthew Colless, Gerald Cecil, Roger L Davies, Michael J Drinkwater, Simon P Driver, Ignacio Ferreras, Caroline Foster, Amelia Fraser-McKelvie, Jon Lawrence, Sarah K Leslie, Jochen Liske, Ángel R López-Sánchez, Nuria PF Lorente, Rebecca McElroy, Anne M Medling, Danail Obreschkow, Samuel N Richards, Rob Sharp, Sarah M Sweet, Dan S Taranu, Edward N Taylor, Edoardo Tescari, Adam D Thomas, James Tocknell, Sam P Vaughan

Diversity of nuclear star cluster formation mechanisms revealed by their star formation histories⋆

Astronomy & Astrophysics EDP Sciences 650 (2021) a137

Authors:

K Fahrion, M Lyubenova, G van de Ven, M Hilker, R Leaman, J Falcón-Barroso, A Bittner, L Coccato, EM Corsini, DA Gadotti, E Iodice, RM McDermid, I Martín-Navarro, F Pinna, A Poci, M Sarzi, PT de Zeeuw, L Zhu

THEZA: TeraHertz Exploration and Zooming-in for Astrophysics

Experimental Astronomy Springer 51:3 (2021) 559-594

Authors:

Leonid I Gurvits, Zsolt Paragi, Viviana Casasola, John Conway, Jordy Davelaar, Heino Falcke, Rob Fender, Sándor Frey, Christian M Fromm, Cristina García Miró, Michael A Garrett, Marcello Giroletti, Ciriaco Goddi, José-Luis Gómez, Jeffrey van der Gucht, José Carlos Guirado, Zoltán Haiman, Frank Helmich, Elizabeth Humphreys, Violette Impellizzeri, Michael Kramer, Michael Lindqvist, Hendrik Linz, Elisabetta Liuzzo, Andrei P Lobanov

Abstract:

This paper presents the ESA Voyage 2050 White Paper for a concept of TeraHertz Exploration and Zooming-in for Astrophysics (THEZA). It addresses the science case and some implementation issues of a space-borne radio interferometric system for ultra-sharp imaging of celestial radio sources at the level of angular resolution down to (sub-) microarcseconds. THEZA focuses at millimetre and sub-millimetre wavelengths (frequencies above $\sim$300~GHz), but allows for science operations at longer wavelengths too. The THEZA concept science rationale is focused on the physics of spacetime in the vicinity of supermassive black holes as the leading science driver. The main aim of the concept is to facilitate a major leap by providing researchers with orders of magnitude improvements in the resolution and dynamic range in direct imaging studies of the most exotic objects in the Universe, black holes. The concept will open up a sizeable range of hitherto unreachable parameters of observational astrophysics. It unifies two major lines of development of space-borne radio astronomy of the past decades: Space VLBI (Very Long Baseline Interferometry) and mm- and sub-mm astrophysical studies with "single dish" instruments. It also builds upon the recent success of the Earth-based Event Horizon Telescope (EHT) -- the first-ever direct image of a shadow of the super-massive black hole in the centre of the galaxy M87. As an amalgam of these three major areas of modern observational astrophysics, THEZA aims at facilitating a breakthrough in high-resolution high image quality studies in the millimetre and sub-millimetre domain of the electromagnetic spectrum.Comment: White Paper submitted in response to the ESA Call Voyage 205