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8 results on '"M. Gronke"'

1. Stellar feedback in a clumpy galaxy at z ∼ 3.4

Author

E Iani, A Zanella, J Vernet, J Richard, M Gronke, C M Harrison, F Arrigoni-Battaia, G Rodighiero, A Burkert, M Behrendt, Chian-Chou Chen, E Emsellem, J Fensch, P Hibon, M Hilker, E Le Floc’h, V Mainieri, A M Swinbank, F Valentino, E Vanzella, and M A Zwaan

Published
2021
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2. Scrutiny of a very young, metal-poor star-forming Lyα emitter at z ≈ 3.7

Author

E Iani, A Zanella, J Vernet, J Richard, M Gronke, F Arrigoni-Battaia, A Bolamperti, K I Caputi, A Humphrey, G Rodighiero, P Rinaldi, E Vanzella, Centre de Recherche Astrophysique de Lyon (CRAL), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), and Astronomy

Subjects
galaxies: high-redshift, [SDU]Sciences of the Universe [physics], Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), galaxies: star formation, ultraviolet: galaxies, FOS: Physical sciences, galaxies: starburst, Astronomy and Astrophysics, galaxies: evolution, Astrophysics - Astrophysics of Galaxies, galaxies: ISM
Abstract

The origin of the Lyman-${\alpha}$ (Ly${\alpha}$) emission in galaxies is a long-standing issue: despite several processes known to originate this line (e.g. AGN, star formation, cold accretion, shock heating), it is difficult to discriminate among these phenomena based on observations. Recent studies have suggested that the comparison of the ultraviolet (UV) and optical properties of these sources could solve the riddle. For this reason, we investigate the rest-frame UV and optical properties of A2895b, a strongly lensed Ly${\alpha}$-emitter at redshift z ~ 3.7. From this study, we find that our target is a compact (r ~ 1.2 pkpc) star-forming (star formation rate ~ 11 M$_{\odot}$/yr) galaxy having a young stellar population. Interestingly, we measure a high ratio of the H${\beta}$ and the UV continuum monochromatic luminosities (L(H${\beta}$)/L(UV) ~ 100). Based on tracks of theoretical stellar models (Starburst99, BPASS), we can only partially explain this result by assuming a recent (< 10 Myr), bursty episode of star-formation and considering models characterised by binary stars, a top-heavy initial-mass function (IMF) and sub-solar metallicities (Z < 0.01 Z$_{\odot}$). These assumptions also explain the observed low (C/O) abundance of our target (~ 0.23(C/O)$_{\odot}$). By comparing the UV and optical datasets, we find that the Ly${\alpha}$ and UV continuum are more extended (x2) than the Balmer lines, and that the peak of the Ly${\alpha}$ is offset (~ 0.6 pkpc). The multi-wavelength results of our analysis suggest that the observed Ly${\alpha}$ emission originates from a recent star-formation burst, likely taking place in an off-centre clump., Comment: 18 pages (including Appendix), 5 figures. Paper accepted for publication on MNRAS. Accepted 2022 November 2. Received 2022 October 22; in original form 2022 August 3

Published
2023
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4. Variations in shape among observed Lyman-α spectra due to intergalactic absorption

Author

C. Byrohl and M. Gronke

Subjects
Physics, 010308 nuclear & particles physics, Space and Planetary Science, Intergalactic medium, 0103 physical sciences, Radiative transfer, Intergalactic travel, Astronomy and Astrophysics, Astrophysics, Absorption (electromagnetic radiation), 010303 astronomy & astrophysics, 01 natural sciences, Spectral line
Abstract

Lyman-α (Lyα) spectra provide insights into the small-scale structure and kinematics of neutral hydrogen (HI) within galaxies as well as the ionization state of the intergalactic medium (IGM). The former defines the intrinsic spectrum of a galaxy, which, in turn, is modified by the latter. These two effects are degenerate. Using the IllustrisTNG100 simulation, we studied the impact of the IGM on Lyα spectral shapes between z ∼ 0 and 5. We computed the distribution of the expected Lyα peaks and of the peak asymmetry for different intrinsic spectra, redshifts, and large-scale environments. We find that the averaged transmission curves that are commonly applied give a misleading perception of the observed spectral properties. We show that the distributions of peak counts and asymmetry can lift the degeneracy between the intrinsic spectrum and IGM absorption. For example, we expect a significant number of triple-peaked Lyα spectra (up to 30% at z ∼ 3) if the galaxies’ HI distribution become more porous at higher redshift, as predicted by cosmological simulations. We provide a public catalog of transmission curves for simulations and observations to allow for a more realistic IGM treatment in future studies.

Published
2020
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5. Magnifying the Early Episodes of Star Formation: Super Star Clusters at Cosmological Distances.

Author

E. Vanzella, M. Castellano, M. Meneghetti, A. Mercurio, G. B. Caminha, G. Cupani, F. Calura, L. Christensen, E. Merlin, P. Rosati, M. Gronke, M. Dijkstra, M. Mignoli, R. Gilli, S. De Barros, K. Caputi, C. Grillo, I. Balestra, S. Cristiani, and M. Nonino

Subjects
STAR formation, STAR clusters, COSMOLOGICAL distances, SPECTROPHOTOMETERS, ASTRONOMICAL observations, IONIZING radiation
Abstract

We study the spectrophotometric properties of a highly magnified () pair of stellar systems identified at z = 3.2222 behind the Hubble Frontier Field galaxy cluster MACS J0416. Five multiple images (out of six) have been spectroscopically confirmed by means of VLT/MUSE and VLT/X-Shooter observations. Each image includes two faint (), young ( Myr), low-mass ( ), low-metallicity (12 + Log(O/H) ≃ 7.7, or 1/10 solar), and compact (30 pc effective radius) stellar systems separated by pc after correcting for lensing amplification. We measured several rest-frame ultraviolet and optical narrow ( km s−1) high-ionization lines. These features may be the signature of very hot ( K) stars within dense stellar clusters, whose dynamical mass is likely dominated by the stellar component. Remarkably, the ultraviolet metal lines are not accompanied by Lyα emission (e.g., C iv/Lyα ), despite the fact that the Lyα line flux is expected to be 150 times brighter (inferred from the Hβ flux). A spatially offset, strongly magnified () Lyα emission with a spatial extent kpc2 is instead identified 2 kpc away from the system. The origin of such a faint emission could be the result of fluorescent Lyα induced by a transverse leakage of ionizing radiation emerging from the stellar systems and/or may be associated with an underlying and barely detected object (with de-lensed). This is the first confirmed metal-line emitter at such low-luminosity and redshift without Lyα emission—suggesting that, at least in some cases, a non-uniform covering factor of the neutral gas might hamper the Lyα detection. [ABSTRACT FROM AUTHOR]

Published
2017
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6. LYMAN-ALPHA SPECTRA FROM MULTIPHASE OUTFLOWS, AND THEIR CONNECTION TO SHELL MODELS.

Author

M. Gronke and M. Dijkstra

Subjects
*MONTE Carlo method, *RADIATIVE transfer, *CLOUDS, *GALACTIC redshift, *INTERSTELLAR medium
Abstract

We perform Lyman-α (Lyα) Monte-Carlo radiative transfer calculations on a suite of 2500 models of multiphase, outflowing media, which are characterized by 14 parameters. We focus on the Lyα spectra emerging from these media and investigate which properties are dominant in shaping the emerging Lyα profile. Multiphase models give rise to a wide variety of emerging spectra, including single-, double-, and triple-peaked spectra. We find that the dominant parameters in shaping the spectra include (i) the cloud covering factor, fc, which is in agreement with earlier studies, and (ii) the temperature and number density of residual H i in the hot ionized medium. We attempt to reproduce spectra emerging from multiphase models with “shell models” which are commonly used to fit observed Lyα spectra, and investigate the connection between shell-model parameters and the physical parameters of the clumpy media. In shell models, the neutral hydrogen content of the shell is one of the key parameters controlling Lyα radiative transfer. Because Lyα spectra emerging from multiphase media depend much less on the neutral hydrogen content of the clumps, the shell-model parameters such as H i column density (but also shell velocity and dust content) are generally not well matched to the associated physical parameters of the clumpy media. [ABSTRACT FROM AUTHOR]

Published
2016
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8. A SYSTEMATIC STUDY OF Lyα TRANSFER THROUGH OUTFLOWING SHELLS: MODEL PARAMETER ESTIMATION.

Author

M. Gronke, P. Bull, and M. Dijkstra

Subjects
*PHOTON emission, *RADIATIVE transfer, *INTERPLANETARY dust, *PARAMETER estimation, *LYMAN line
Abstract

Outflows promote the escape of Lyman-α (Lyα) photons from dusty interstellar media. The process of radiative transfer through interstellar outflows is often modeled by a spherically symmetric, geometrically thin shell of neutral gas that scatters photons emitted by a central Lyα source. Despite its simplified geometry, this “shell model” has been surprisingly successful at reproducing observed Lyα line shapes. In this paper, we perform automated line fitting on a set of noisy simulated shell-model spectra in order to determine whether degeneracies exist between the different shell-model parameters. While there are some significant degeneracies, we find that most parameters are accurately recovered, especially the H i column density (NH i) and outflow velocity (vexp). This work represents an important first step in determining how the shell-model parameters relate to the actual physical properties of Lyα sources. To aid further exploration of the parameter space, we have made our simulated model spectra available through an interactive online tool. [ABSTRACT FROM AUTHOR]

Published
2015
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