Unraveling the Lyman Continuum Emission of Ion3: Insights from HST multi-band imaging and X-Shooter spectroscopy
Abstract
We provide a comprehensive analysis of Ion3, the most distant LyC leaker at z=3.999, using multi-band HST photometry and X-Shooter spectroscopy. Deep HST F390W imaging probe uncontaminated LyC flux blueward 880, while the non-ionizing UV 1500/2800~flux is probed with the F814W/F140W band. High angular resolution allows us to properly mask low-z interlopers and prevent contamination of measured LyC radiation. We confirm the detection of LyC flux at SNR 3.5 and estimate the escape fraction of ionizing photons to be in the range f esc, rel = 0.06 -- 1, depending on the adopted IGM attenuation. Morphological analysis reveals a clumpy structure made of two main components, with effective radii of R eff 180 pc and R eff < 100 pc, and a total estimated de-lensed area in the rest-frame 1600~of 4.2~kpc2. We confirm the presence of faint ultraviolet spectral features HeIIλ1640, CIII]λ1907,1909 and [NeIII]λ3968, with rest-frame EW(HeII) = (1.60.7)\ and EW(CIII]) = (6.53). From [OII]λλ3726,3729 and [CIII]λ1909/CIII]λ1906 we derive electron densities n e [OII] = 23001900 cm-3 and n e CIII] > 104 cm-3, corresponding to an ISM pressure log(P/k) > 7.90. Furthermore, we derive an intrinsic SFR(Hα) ≈ 77 M yr-1 (corresponding to SFR = 20~M~yr-1~kpc-2 for the entire galaxy) and sub-solar metallicity 12+ log(O/H) = 8.020.20 using the EW(CIII]) as a diagnostic. The detection of [NeIII]λ3968 line and [OII]λλ3726,3729, provide an estimate of the ratio [OIII]λ5007/[OII]λλ3727,29 of O32 > 50 and high ionization parameter logU > -1.5 using empirical and theoretical correlations.
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