The First Billion Years project: the escape fraction of ionizing photons in the epoch of reionization

Paardekooper, Jan‐Pieter; Khochfar, Sadegh; Vecchia, Claudio Dalla

doi:10.1093/mnras/stv1114

Cited by 250 publications

(320 citation statements)

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“…This code was extended and modified to include the treatment of population III (Pop III) star formation, Lyman-Werner feedback, non-equilibrium primordial chemistry, and dust formation/destruction in the First Billion Year (FiBY) project (e.g., Khochfar & Dalla Vecchia et al in prep.). The impacts of these new physical processes on galaxy formation have been studied in a series of papers of the FiBY project (e.g., Johnson et al 2013;Paardekooper et al 2013;Agarwal & Khochfar 2015;Elliott et al 2015). In this work, we do not consider the formation of Pop III stars and non-equilibrium primordial chemistry, because our focus are more massive galaxies after the era of first mini-halos.…”

Section: Code and Zoom-in Methodsmentioning

confidence: 99%

“…The central question is how the first galaxies formed and evolved to the observed galaxies at z 6. In addition, the first galaxies are also considered to be important contributor of ionizing photons for cosmic reionization (Yajima et al 2009(Yajima et al , 2011(Yajima et al , 2014aPaardekooper et al 2013Paardekooper et al , 2015Wise et al 2014;Kimm & Cen 2014;Robertson et al 2015;Ma et al 2015). Therefore, understanding star formation in first galaxies would also provide indispensable information for the cosmic reionization history.…”

Section: Introductionmentioning

confidence: 99%

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Growth of First Galaxies: Impacts of Star Formation and Stellar Feedback

Yajima

Nagamine

Zhu

et al. 2017

ApJ

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Recent observations have detected galaxies at high-redshift z ∼ 6 − 11, and revealed the diversity of their physical properties, from normal star-forming galaxies to starburst galaxies. To understand the properties of these observed galaxies, it is crucial to understand the star formation (SF) history of high-redshift galaxies under the influence of stellar feedback. In this work, we present the results of cosmological hydrodynamic simulations with zoom-in initial conditions, and investigate the formation of the first galaxies and their evolution towards observable galaxies at z ∼ 6. We focus on three different galaxies which end up in halos with masses M h = 2.4 × 10 10 h −1 M ⊙ (Halo-10), 1.6 × 10 11 h −1 M ⊙ (Halo-11) and 0.7 × 10 12 h −1 M ⊙ (Halo-12) at z = 6. Our simulations also probe impacts of different sub-grid assumptions, i.e., SF efficiency and cosmic reionization, on SF histories in the first galaxies. We find that star formation occurs intermittently due to supernova (SN) feedback at z 10, and then it proceeds more smoothly as the halo mass grows at lower redshifts. Galactic disks are destroyed due to SN feedback, while galaxies in simulations with no-feedback or lower SF efficiency models can sustain galactic disk for long periods 10 Myr. The expulsion of gas at the galactic center also affects the inner dark matter density profile. However, SN feedback does not seem to keep the shallow profile of dark matter for a long period. Our simulated galaxies in Halo-11 and Halo-12 reproduce the star formation rates (SFR) and stellar masses of observed Lyman-α emitters (LAEs) at z ∼ 7 − 8 fairly well given observational uncertainties. In addition, we investigate the effect of UV background radiation on star formation as an external feedback source, and find that earlier reionization extends the quenching time of star formation due to photo-ionization heating, but does not affect the stellar mass at z = 6.

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Section: Code and Zoom-in Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Growth of First Galaxies: Impacts of Star Formation and Stellar Feedback

Yajima

Nagamine

Zhu

et al. 2017

ApJ

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“…However, the value of f esc for an individual galaxy is strongly dependent on its chemical, structural, and kinematic properties, and there exists considerable theoretical and observational evidence to suggest that the average f esc does indeed vary with redshift, mass, and/or star formation rate (e.g. Gnedin et al 2008;Wise & Cen 2009;Paardekooper et al 2011;Yajima et al 2011;Kuhlen & Faucher-Giguère 2012;Mitra et al 2013;Paardekooper et al 2015). …”

Section: An Evolving Escape Fractionmentioning

confidence: 99%

Dark-ages reionization and galaxy formation simulation – III. Modelling galaxy formation and the epoch of reionization

Mutch

Geil

Poole

et al. 2016

Mon. Not. R. Astron. Soc.

141

160

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We introduce Meraxes, a new, purpose-built semi-analytic galaxy formation model designed for studying galaxy growth during reionization. Meraxes is the first model of its type to include a temporally and spatially coupled treatment of reionization and is built upon a custom (100 Mpc) 3 N -body simulation with high temporal and mass resolution, allowing us to resolve the galaxy and star formation physics relevant to early galaxy formation. Our fiducial model with supernova feedback reproduces the observed optical depth to electron scattering and evolution of the galaxy stellar mass function between z=5 and 7, predicting that a broad range of halo masses contribute to reionization. Using a constant escape fraction and global recombination rate, our model is unable to simultaneously match the observed ionizing emissivity at z < ∼ 6. However, the use of an evolving escape fraction of 0.05-0.1 at z∼6, increasing towards higher redshift, is able to satisfy these three constraints. We also demonstrate that photoionization suppression of low mass galaxy formation during reionization has only a small effect on the ionization history of the inter-galactic medium. This lack of 'selfregulation' arises due to the already efficient quenching of star formation by supernova feedback. It is only in models with gas supply-limited star formation that reionization feedback is effective at regulating galaxy growth. We similarly find that reionization has only a small effect on the stellar mass function, with no observationally detectable imprint at M * >10 7.5 M . However, patchy reionization has significant effects on individual galaxy masses, with variations of factors of 2-3 at z=5 that correlate with environment.

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“…A recent submission by Cullen et al (2017) explores the effect of dust on galaxies in the Gadget First Billion Years Project (Paardekooper et al 2015). Stellar population synthesis is calculated using BPASSv2 (Eldridge & Stanway 2016) and emission lines are calculated using Cloudy.…”

Section: Cullen Et Al 2017mentioning

confidence: 99%

First light: exploring the spectra of high-redshift galaxies in the Renaissance Simulations

Barrow

Wise

Norman

et al. 2017

Monthly Notices of the Royal Astronomical Society

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We present synthetic observations for the first generations of galaxies in the Universe and make predictions for future deep field observations for redshifts greater than 6. Due to the strong impact of nebular emission lines and the relatively compact scale of H ii regions, high resolution cosmological simulations and a robust suite of analysis tools are required to properly simulate spectra. We created a software pipeline consisting of FSPS, Hyperion, Cloudy and our own tools to generate synthetic IR observations from a fully three-dimensional arrangement of gas, dust, and stars. Our prescription allows us to include emission lines for a complete chemical network and tackle the effect of dust extinction and scattering in the various lines of sight. We provide spectra, 2-D binned photon imagery for both HST and JWST IR filters, luminosity relationships, and emission line strengths for a large sample of high redshift galaxies in the Renaissance Simulations. Our resulting synthetic spectra show high variability between galactic halos with a strong dependence on stellar mass, metallicity, gas mass fraction, and formation history. haloes with the lowest stellar mass have the greatest variability in [O iii]/Hβ, [O iii] and C iii] while haloes with higher masses are seen to show consistency in their spectra and [O iii] equivalent widths (EW) between 1Å and 10Å. Viewing angle accounted for three-fold difference in flux due to the presence of ionized gas channels in a halo. Furthermore, JWST colour plots show a discernible relationship between redshift, colour, and mean stellar age.

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The First Billion Years project: the escape fraction of ionizing photons in the epoch of reionization

Cited by 250 publications

References 108 publications

Growth of First Galaxies: Impacts of Star Formation and Stellar Feedback

Growth of First Galaxies: Impacts of Star Formation and Stellar Feedback

Dark-ages reionization and galaxy formation simulation – III. Modelling galaxy formation and the epoch of reionization

First light: exploring the spectra of high-redshift galaxies in the Renaissance Simulations

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