# HST Imaging of the Ionizing Radiation from a Star-forming Galaxy at z =   3.794

**Authors:** Zhiyuan Ji, Mauro Giavalisco, Eros Vanzella, Brian Siana, Laura, Pentericci, Anne Jaskot, Teng Liu, Mario Nonino, Henry C. Ferguson, Marco, Castellano, Filippo Mannucci, Daniel Schaerer, Johan Peter Uldall Fynbo,, Casey Papovich, Adam C. Carnall, Ricardo Amorin, Raymond C. Simons, Nimish, Hathi, Fergus Cullen, Derek McLeod

arXiv: 1908.00556 · 2020-01-16

## TL;DR

This study reports the direct detection of ionizing radiation from a high-redshift galaxy using HST imaging, revealing insights into the galaxy's structure, LyC escape mechanisms, and the rarity of such emitters.

## Contribution

First direct imaging detection of LyC emission at z=3.794, showing spatial offset and morphological features that suggest escape through low-density ISM regions.

## Key findings

- LyC emission detected at rest-frame 820-890 Å with HST.
- LyC escape fraction upper limit < 0.63%.
- LyC emission originates from a bluer, less obscured region of the galaxy.

## Abstract

We report on the HST detection of the Lyman-continuum (LyC) radiation emitted by a galaxy at redshift z=3.794, dubbed Ion1 (Vanzella et al. 2012). The LyC from Ion1 is detected at rest-frame wavelength 820$\sim$890 \AA with HST WFC3/UVIS in the F410M band ($m_{410}=27.60\pm0.36$ magnitude (AB), peak SNR = 4.17 in a circular aperture with radius r = 0.12'') and at 700$\sim$830 \AA with the VLT/VIMOS in the U-band ($m_U = 27.84\pm0.19$ magnitude (AB), peak SNR = 6.7 with a r = 0.6'' aperture). A 20-hr VLT/VIMOS spectrum shows low- and high-ionization interstellar metal absorption lines, the P-Cygni profile of CIV and Ly$\alpha$ in absorption. The latter spectral feature differs from what observed in known LyC emitters, which show strong Ly$\alpha$ emission. An HST far-UV color map reveals that the LyC emission escapes from a region of the galaxy that is bluer than the rest, presumably because of lower dust obscuration. The F410M image shows that the centroid of the LyC emission is offset from the centroid of the non-ionizing UV emission by 0.12''$\pm$0.03'', corresponding to 0.85$\pm$0.21 kpc (physical), and that its morphology is likely moderately resolved. These morphological characteristics favor a scenario where the LyC photons produced by massive stars escape from low HI column-density "cavities" in the ISM, possibly carved by stellar winds and/or supernova. We also collect the VIMOS U-band images of a sample of 107 Lyman-break galaxies with spectroscopic redshifts at $3.40<z<3.95$, i.e. sampling the LyC, and stack them with inverse-variance weights. No LyC emission is detected in the stacked image, resulting in a 32.5 magnitude (AB) flux limit (1$\sigma$) and an upper limit of absolute LyC escape fraction $f_{esc}^{abs} < 0.63\%$. LyC emitters like Ion1 are very likely at the bright-end of the LyC luminosity function.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1908.00556/full.md

## References

128 references — full list in the complete paper: https://tomesphere.com/paper/1908.00556/full.md

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Source: https://tomesphere.com/paper/1908.00556