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BEoRN: A fast and flexible framework to simulate the epoch of reionisation and cosmic dawn
by
Giri, Sambit K
, Schaeffer, Timothée
, Schneider, Aurel
in
Astronomical models
/ Bubbles
/ Coupling
/ Dynamical systems
/ Emission
/ Galactic halos
/ Galaxies
/ Intergalactic media
/ Ionization
/ Luminosity
/ Many body problem
/ Photons
/ Simulation
2023
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BEoRN: A fast and flexible framework to simulate the epoch of reionisation and cosmic dawn
by
Giri, Sambit K
, Schaeffer, Timothée
, Schneider, Aurel
in
Astronomical models
/ Bubbles
/ Coupling
/ Dynamical systems
/ Emission
/ Galactic halos
/ Galaxies
/ Intergalactic media
/ Ionization
/ Luminosity
/ Many body problem
/ Photons
/ Simulation
2023
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Do you wish to request the book?
BEoRN: A fast and flexible framework to simulate the epoch of reionisation and cosmic dawn
by
Giri, Sambit K
, Schaeffer, Timothée
, Schneider, Aurel
in
Astronomical models
/ Bubbles
/ Coupling
/ Dynamical systems
/ Emission
/ Galactic halos
/ Galaxies
/ Intergalactic media
/ Ionization
/ Luminosity
/ Many body problem
/ Photons
/ Simulation
2023
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BEoRN: A fast and flexible framework to simulate the epoch of reionisation and cosmic dawn
Paper
BEoRN: A fast and flexible framework to simulate the epoch of reionisation and cosmic dawn
2023
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Overview
In this study, we introduce BEoRN (Bubbles during the Epoch of Reionisation Numerical Simulator), a publicly available Python code that generates three-dimensional maps of the 21-cm signal from the cosmic dawn and the epoch of reionisation. Built upon N-body simulation outputs, BEoRN populates haloes with stars and galaxies based on a flexible source model. It then computes the evolution of Lyman-\\(\\) coupling, temperature, and ionisation profiles as a function of source properties, and paints these profiles around each source onto a three-dimensional grid. The code consistently deals with the overlap of ionised bubbles by redistributing photons around the bubble boundaries, thereby ensuring photon conservation. It accounts for the redshifting of photons and the source look-back effect for the temperature and Lyman-\\(\\) coupling profiles which extend far into the intergalactic medium to scales of order 100 cMpc. We provide a detailed description of the code and compare it to results from the literature. After validation, we run three different benchmark models based on a cosmological N-body simulation. All three models agree with current observations from UV luminosity functions and estimates of the mean ionisation fraction. Due to different assumptions regarding the small-mass stellar-to-halo relation, the X-ray flux emission, and the ionising photon escape fraction, the models produce unique signatures ranging from a cold reionisation with deep absorption trough to an emission-dominated 21-cm signal, broadly encompassing the current uncertainties at cosmic dawn. The code BEoRN is publicly available at https://github.com/cosmic-reionization/BEoRN.
Publisher
Cornell University Library, arXiv.org
Subject
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