Galaxy formation and evolution

The strong gravitationally lensed Herschel galaxy HLock01: Optical spectroscopy reveals a close galaxy merger with evidence of inflowing gas

Astrophysical Journal Institute of Physics 854:2 (2018) 151

Authors:

R Marques-Chaves, I Pérez-Fournon, R Gavazzi, PI Martínez-Navajas, D Riechers, Dimitra Rigopoulou, A Cabrera-Lavers, DL Clements, A Cooray, D Farrah, RJ Ivison, CE Jiménez-Ángel, H Nayyeri, S Oliver, A Omont, D Scott, Y Shu, J Wardlow

Abstract:

The submillimeter galaxy (SMG) HERMES J105751.1+573027 (hereafter HLock01) at z =2.9574 ±0.0001 is one of the brightest gravitationally lensed sources discovered in the Herschel Multi-tiered Extragalactic Survey. Apart from the high flux densities in the far-infrared, it is also extremely bright in the rest-frame ultraviolet (UV), with a total apparent magnitude mUV≃ 19.7 mag. We report here deep spectroscopic observations with the Gran Telescopio Canarias of the optically bright lensed images of HLock01. Our results suggest that HLock01 is a merger system composed of the Herschel-selected SMG and an optically bright Lyman break-like galaxy (LBG), separated by only 3.3 kpc in projection. While the SMG appears very massive (M∗≃ 5 ×1011Mo), with a highly extinguished stellar component (AV≃ 4.3), the LBG is a young, lower-mass (M∗≃ 1 ×1010Mo), but still luminous (10 × LUV∗) satellite galaxy. Detailed analysis of the high signal-to-noise ratio (S/N) rest-frame UV spectrum of the LBG shows complex kinematics of the gas, exhibiting both blueshifted and redshifted absorption components. While the blueshifted component is associated with strong galactic outflows from the massive stars in the LBG, as is common in most star-forming galaxies, the redshifted component may be associated with gas inflow seen along a favorable sightline to the LBG. We also find evidence of an extended gas reservoir around HLock01 at an impact parameter of 110 kpc, through the detection of C ii λλ1334 absorption in the red wing of a bright Lyα emitter at z ≃ 3.327. The data presented here highlight the power of gravitational lensing in high S/N studies to probe deeply into the physics of high-z star-forming galaxies.

Early-type galaxy spin evolution in the Horizon-AGN simulation

(2018)

Authors:

Hoseung Choi, Sukyoung K Yi, Yohan Dubois, Taysun Kimm, Julien EG Devriendt, Christophe Pichon

Simulating the detection and classification of high-redshift supernovae with HARMONI on the ELT

Monthly Notices of the Royal Astronomical Society Oxford University Press 478:3 (2018) 3189-3198

Authors:

S Bounissou, Niranjan Thatte, S Zieleniewski, RCW Houghton, M Tecza, I Hook, B Neichel, T Fusco

Abstract:

We present detailed simulations of integral field spectroscopic observations of a supernova in a host galaxy at z ∼ 3, as observed by the HARMONI spectrograph on the Extremely Large Telescope, asssisted by laser tomographic adaptive optics. The goal of the simulations, using the HSIM simulation tool, is to determine whether HARMONI can discern the supernova Type from spectral features in the supernova spectrum. We find that in a 3 hour observation, covering the near-infrared H and K bands, at a spectral resolving power of ∼3000, and using the 20×20 mas spaxel scale, we can classify supernova Type Ia and their redshift robustly up to 80 days past maximum light (20 days in the supernova rest frame). We show that HARMONI will provide spectra at z ∼ 3 that are of comparable (or better) quality to the best spectra we can currently obtain at z ∼ 1, thus allowing studies of cosmic expansion rates to be pushed to substantially higher redshifts.

The JWST Extragalactic Mock Catalog: Modeling galaxy populations from the UV through the near-IR over thirteen billion years of cosmic history

(2018)

Authors:

Christina C Williams, Emma Curtis-Lake, Kevin N Hainline, Jacopo Chevallard, Brant E Robertson, Stephane Charlot, Ryan Endsley, Daniel P Stark, Christopher NA Willmer, Stacey Alberts, Ricardo Amorin, Santiago Arribas, Stefi Baum, Andrew Bunker, Stefano Carniani, Sara Crandall, Eiichi Egami, Daniel J Eisenstein, Pierre Ferruit, Bernd Husemann, Michael V Maseda, Roberto Maiolino, Timothy D Rawle, Marcia Rieke, Renske Smit, Sandro Tacchella, Chris J Willott

Shape of LOSVDs in barred disks: implications for future IFU surveys

Astrophysical Journal IOP Publishing 854:1 (2018) 65

Authors:

Z-Y Li, J Shen, Martin Bureau, Y Zhou, M Du, VP Debattista

Abstract:

The shape of LOSVDs (line-of-sight velocity distributions) carries important information about the internal dynamics of galaxies. The skewness of LOSVDs represents their asymmetric deviation from a Gaussian profile. Correlations between the skewness parameter ($h_3$) and the mean velocity ($\vm$) of a Gauss-Hermite series reflect the underlying stellar orbital configurations of different morphological components. Using two self-consistent $N$-body simulations of disk galaxies with different bar strengths, we investigate $h_3-\vm$ correlations at different inclination angles. Similar to previous studies, we find anticorrelations in the disk area, and positive correlations in the bar area when viewed edge-on. However, at intermediate inclinations, the outer parts of bars exhibit anticorrelations, while the core areas dominated by the boxy/peanut-shaped (B/PS) bulges still maintain weak positive correlations. When viewed edge-on, particles in the foreground/background disk (the wing region) in the bar area constitute the main velocity peak, whereas the particles in the bar contribute to the high-velocity tail, generating the $h_3-\vm$ correlation. If we remove the wing particles, the LOSVDs of the particles in the outer part of the bar only exhibit a low-velocity tail, resulting in a negative $h_3-\vm$ correlation, whereas the core areas in the central region still show weakly positive correlations. We discuss implications for IFU observations on bars, and show that the variation of the $h_3-\vm$ correlation in the disk galaxy may be used as a kinematic indicator of the bar and the B/PS bulge.