Rubin-LSST

MIGHTEE-H I: the H I size–mass relation over the last billion years

Monthly Notices of the Royal Astronomical Society Oxford University Press 512:2 (2022) 2697-2706

Authors:

Sambatriniaina HA Rajohnson, Bradley S Frank, Anastasia A Ponomareva, Natasha Maddox, Renee C Kraan-Korteweg, Matt J Jarvis, Elizabeth AK Adams, Tom Oosterloo, Maarten Baes, Kristine Spekkens, Nathan J Adams, Marcin Glowacki, Sushma Kurapati, Isabella Prandoni, Ian Heywood, Jordan D Collier, Srikrishna Sekhar, Russ Taylor

Abstract:

We present the observed H I size–mass relation of 204 galaxies from the MIGHTEE Survey Early Science data. The high sensitivity of MeerKAT allows us to detect galaxies spanning more than 4 orders of magnitude in H I mass, ranging from dwarf galaxies to massive spirals, and including all morphological types. This is the first time the relation has been explored on a blind homogeneous data set that extends over a previously unexplored redshift range of 0 < z < 0.084, i.e. a period of around one billion years in cosmic time. The sample follows the same tight logarithmic relation derived from previous work, between the diameter (⁠DHI⁠) and the mass (⁠MHI⁠) of H I discs. We measure a slope of 0.501 ± 0.008, an intercept of −3.252+0.073−0.074⁠, and an observed scatter of 0.057 dex. For the first time, we quantify the intrinsic scatter of 0.054 ± 0.003 dex (⁠∼10 per cent⁠), which provides a constraint for cosmological simulations of galaxy formation and evolution. We derive the relation as a function of galaxy type and find that their intrinsic scatters and slopes are consistent within the errors. We also calculate the DHI−MHI relation for two redshift bins and do not find any evidence for evolution with redshift. These results suggest that over a period of one billion years in look-back time, galaxy discs have not undergone significant evolution in their gas distribution and mean surface mass density, indicating a lack of dependence on both morphological type and redshift.

A persistent ultraviolet outflow from an accreting neutron star binary transient

Nature Springer Nature 603:7899 (2022) 52-57

Authors:

N Castro Segura, C Knigge, KS Long, D Altamirano, M Armas Padilla, C Bailyn, DAH Buckley, DJK Buisson, J Casares, P Charles, JA Combi, VA Cúneo, ND Degenaar, S del Palacio, M Díaz Trigo, R Fender, P Gandhi, M Georganti, C Gutiérrez, JV Hernandez Santisteban, F Jiménez-Ibarra, J Matthews, M Méndez, M Middleton, T Muñoz-Darias, M Özbey Arabacı, M Pahari, L Rhodes, TD Russell, S Scaringi, J van den Eijnden, G Vasilopoulos, FM Vincentelli, P Wiseman

A persistent ultraviolet outflow from an accreting neutron star binary transient

(2022)

Authors:

N Castro Segura, C Knigge, KS Long, D Altamirano, M Armas Padilla, C Bailyn, DAH Buckley, DJK Buisson, J Casares, P Charles, JA Combi, VA Cúneo, ND Degenaar, S del Palacio, M Díaz Trigo, R Fender, P Gandhi, M Georganti, C Gutiérrez, JV Hernandez Santisteban, F Jiménez-Ibarra, J Matthews, M Méndez, M Middleton, T Muñoz-Darias, M Özbey Arabacı, M Pahari, L Rhodes, TD Russell, S Scaringi, J van den Eijnden, G Vasilopoulos, FM Vincentelli, P Wiseman

Propagating spatially-varying multiplicative shear bias to cosmological parameter estimation for stage-IV weak-lensing surveys

(2022)

Authors:

Casey Cragg, Christopher AJ Duncan, Lance Miller, David Alonso

Galaxy populations in the Hydra I cluster from the VEGAS survey

Astronomy & Astrophysics EDP Sciences 659 (2022) a92

Authors:

Antonio La Marca, Reynier Peletier, Enrichetta Iodice, Maurizio Paolillo, Nelvy Choque Challapa, Aku Venhola, Duncan A Forbes, Michele Cantiello, Michael Hilker, Marina Rejkuba, Magda Arnaboldi, Marilena Spavone, Giuseppe D’Ago, Maria Angela Raj, Rossella Ragusa, Marco Mirabile, Roberto Rampazzo, Chiara Spiniello, Steffen Mieske, Pietro Schipani