Galaxy formation and evolution

H0LiCOW – I. H0 Lenses in COSMOGRAIL's Wellspring: program overview

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 468:3 (2017) 2590-2604

Authors:

SH Suyu, V Bonvin, F Courbin, CD Fassnacht, CE Rusu, D Sluse, T Treu, KC Wong, MW Auger, X Ding, S Hilbert, PJ Marshall, N Rumbaugh, A Sonnenfeld, M Tewes, O Tihhonova, A Agnello, RD Blandford, GC-F Chen, T Collett, LVE Koopmans, K Liao, G Meylan, C Spiniello

Implications for the origin of early-type dwarf galaxies - the discovery of rotation in isolated, low-mass early-type galaxies

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 468:3 (2017) 2850-2864

Authors:

J Janz, SJ Penny, AW Graham, DA Forbes, RL Davies

Implications of strong intergalactic magnetic fields for ultrahigh-energy cosmic-ray astronomy

Physical Review D: Particles, Fields, Gravitation and Cosmology American Physical Society 96 (2017) 023010

Authors:

Rafael Alves Batista, Shin, Julien D Devriendt, DS Semikoz, GS Sigl

Abstract:

We study the propagation of ultra-high-energy cosmic rays in the magnetised cosmic web. We focus on the particular case of highly magnetised voids (B ~ nG), using the upper bounds from the Planck satellite. The cosmic web was obtained from purely magnetohydrodynamical cosmological simulations of structure formation considering different power spectra for the seed magnetic field in order to account for theoretical uncertainties. We investigate the impact of these uncertainties on the propagation of cosmic rays, showing that they can affect the measured spectrum and composition by up to ≃ 80% and ≃ 5%, respectivelly. In our scenarios, even if magnetic fields in voids are strong, deflections of 50 EeV protons from sources closer than ~ 50 Mpc are less than 15° in approximately 10-50% of the sky, depending on the distribution of sources and magnetic power spectrum. Therefore, UHECR astronomy might be possible in a significant portion of the sky depending on the primordial magnetic power spectrum, provided that protons constitute a sizeable fraction of the observed UHECR flux.

Integral-field kinematics and stellar populations of early-type galaxies out to three half-light radii

Monthly Notices of the Royal Astronomical Society Oxford University Press 471:4 (2017) 4005-4026

Authors:

NF Boardman, A-M Weijmans, R van den Bosch, H Kuntschner, E Emsellem, Michele Cappellari, T de Zeeuw, J Falcón-Barroso, D Krajnović, R McDermid, T Naab, G van de Ven, A Yildirim

Abstract:

We observed 12 nearby HI-detected early-type galaxies (ETGs) of stellar mass ∼10^10M⊙ ≤ M∗ ≤ ∼10^11 M⊙ with the Mitchell Integral-Field Spectrograph, reaching approximately three half-light radii in most cases. We extracted line-of-sight velocity distributions for the stellar and gaseous components. We find little evidence of transitions in the stellar kinematics of the galaxies in our sample beyond the central effective radius, with centrally fast-rotating galaxies remaining fast-rotating and centrally slow-rotating galaxies likewise remaining slow-rotating. This is consistent with these galaxies having not experienced late dry major mergers; however, several of our objects have ionized gas that is misaligned with respect to their stars, suggesting some kind of past interaction. We extract Lick index measurements of the commonly used Hβ, Fe5015, Mgb, Fe5270 and Fe5335 absorption features, and we find most galaxies to have flat Hβ gradients and negative Mgb gradients. We measure gradients of age, metallicity and abundance ratio for our galaxies using spectral fitting, and for the majority of our galaxies find negative age and metallicity gradients.We also find the stellar mass-to-light ratios to decrease with radius for most of the galaxies in our sample. Our results are consistent with a view in which intermediate-mass ETGs experience mostly quiet evolutionary histories, but in which many have experienced some kind of gaseous interaction in recent times.

The Spectroscopy and H-band Imaging of Virgo Cluster Galaxies (SHIVir) survey: Scaling relations and the stellar-to-total mass relation

Astrophysical Journal Institute of Physics 843:1 (2017) 74

Authors:

NN-Q Ouellette, S Courteau, JA Holtzman, AA Dutton, Michele Cappellari, JJ Dalcanton, M McDonald, JC Roediger, JE Taylor, RB Tully, P Côté, L Ferrarese, EW Peng

Abstract:

We present here parameter distributions and fundamental scaling relations for 190 galaxies as part of the Spectroscopy and H-bang Imaging of Virgo cluster galaxies (SHIVir) survey. We find the distribution of galaxy velocities to be bimodal about $V_{\rm circ} \sim 125$ km ${\rm s^{-1}}$, hinting at the existence of dynamically unstable modes in the inner regions of galaxies. An analysis of the Tully-Fisher relation (TFR) of late-type galaxies (LTGs) and fundamental plane (FP) of early-type galaxies (ETGs) is also presented, yielding a compendium of galaxy scaling relations. The slope and zero-point of the Virgo TFR match those of field galaxies, while scatter differences likely reflect distinct evolutionary histories. The velocities minimizing scatter for the TFR and FP are measured at large apertures where the baryonic fraction becomes subdominant. While TFR residuals remain independent of any galaxy parameters, FP residuals (i.e. the FP "tilt") correlate strongly with the dynamical-to-stellar mass ratio, yielding stringent galaxy formation constraints. Furthermore, we construct a stellar-to-total mass relation (STMR) for ETGs and LTGs and find linear but distinct trends over the range $M_{*} = 10^{8-11} M_{\odot}$. Stellar-to-halo mass relations (SHMRs), which probe the extended dark matter halo, can be scaled down to masses estimated within the optical radius, showing a tight match with the Virgo STMR at low masses; however, possibly inadequate halo abundance matching prescriptions and broad radial scalings complicate this comparison at all masses. While ETGs appear to be more compact than LTGs of the same stellar mass in projected space, their mass-size relations in physical space are identical. The trends reported here call for validation through well-resolved numerical simulations.