The physics of indirect estimators of Lyman Continuum escape and their application to high-redshift JWST galaxies

Choustikov, N; Katz, H; Saxena, A; Cameron, AJ; Devriendt, J; Slyz, A; Rosdahl, J; Blaizot, J; Michel-Dansac, L

Internet publication

The physics of indirect estimators of Lyman Continuum escape and their application to high-redshift JWST galaxies

Abstract:: Reliable indirect diagnostics of LyC photon escape from galaxies are required to understand which sources were the dominant contributors to reionization. While multiple LyC escape fraction (f_esc) indicators have been proposed to trace favourable conditions for LyC leakage from the interstellar medium of low-redshift ‘analogue’ galaxies, it remains unclear whether these are applicable at high redshifts where LyC emission cannot be directly observed. Using a library of 14 120 mock spectra of star-forming galaxies with redshifts 4.64 ≤ z ≤ 10 from the SPHINX²⁰ cosmological radiation hydrodynamics simulation, we develop a framework for the physics that leads to high f_esc. We investigate LyC leakage from our galaxies based on the criteria that successful LyC escape diagnostics must (i) track a high-specific star formation rate, (ii) be sensitive to stellar population age in the range 3.5–10 Myr representing the times when supernova first explode to when LyC production significantly drops, and (iii) include a proxy for neutral gas content and gas density in the interstellar medium. O₃₂, Σ_SFR, M_UV, and H β equivalent width select for one or fewer of our criteria, rendering them either necessary but insufficient or generally poor diagnostics. In contrast, UV slope (β), and E(B − V) match two or more of our criteria, rendering them good f_esc diagnostics (albeit with significant scatter). Using our library, we build a quantitative model for predicting f_esc based on direct observables. When applied to bright z > 6 Ly α emitters observed with JWST, we find that the majority of them have 𝑓esc≲10 per cent⁠.

Publication status:: Published

Peer review status:: Not peer reviewed

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APA Style

Choustikov, N., Katz, H., Saxena, A., Cameron, A. J., Devriendt, J., Slyz, A., Rosdahl, J., Blaizot, J., & Michel-Dansac, L. (2023). The physics of indirect estimators of Lyman Continuum escape and their application to high-redshift JWST galaxies.

MLA Style

Choustikov, N., et al. The Physics of Indirect Estimators of Lyman Continuum Escape and Their Application to High-Redshift JWST Galaxies. 2023.

Chicago Style

Choustikov, N, H Katz, A Saxena, AJ Cameron, J Devriendt, A Slyz, J Rosdahl, J Blaizot, and L Michel-Dansac. 2023. “The Physics of Indirect Estimators of Lyman Continuum Escape and Their Application to High-Redshift JWST Galaxies.”
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