$Convergence of small scale Ly$\alpha$ structure at high-$z$ under different reionization scenarios$

Convergence of small scale Ly$\alpha$ structure at high-$z$ under different reionization scenarios

The Ly$\alpha$ forest (LAF) at $z>5$ probes the thermal and reionization history of the intergalactic medium (IGM) and the nature of dark matter, but its interpretation requires comparison to cosmological hydrodynamical simulations. At high-$z$, convergence of these simulations is more exac...

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Veröffentlicht in:	arXiv.org 2023-05
Hauptverfasser:	Doughty, Caitlin C, Hennawi, Joseph F, Davies, Frederick B, Lukić, Zarija, Oñorbe, Jose
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Sprache:	eng
Schlagworte:	Convergence Dark matter Intergalactic media Ionization Simulation
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description	The Ly$\alpha$ forest (LAF) at $z>5$ probes the thermal and reionization history of the intergalactic medium (IGM) and the nature of dark matter, but its interpretation requires comparison to cosmological hydrodynamical simulations. At high-$z$, convergence of these simulations is more exacting since transmission is dominated by underdense voids that are challenging to resolve. With evidence mounting for a late end to reionization, small structures down to the sub-kpc level may survive to later times than conventionally thought due to the reduced time for pressure smoothing to impact the gas, further tightening simulation resolution requirements. We perform a suite of simulations using the Eulerian cosmological hydrodynamics code Nyx, spanning domain sizes of 1.25-10 $h^{-1}$ Mpc and 5-80 $h^{-1}$ kpc cells, and explore the interaction of these variables with the timing of reionization on the properties of the matter distribution and the simulated LAF at $z=5.5$. In observable Ly$\alpha$ power, convergence within 10% is achieved for $k< 0.1$ s/km, but larger $k$ shows deviation of up to 20 percent. While a later reionization retains more small structure in the density field, because of the greater thermal broadening there is little difference in the convergence of LAF power between early ($z=9$) and later ($z=6$) reionizations. We conclude that at $z\sim5.5$, resolutions of 10 kpc are necessary for convergence of LAF power at \(k
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title	Convergence of small scale Ly$\alpha$ structure at high-$z$ under different reionization scenarios
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Convergence of small scale Ly\(\alpha\) structure at high-\(z\) under different reionization scenarios