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Intergalactic Medium Dispersion Measures of Fast Radio Bursts Estimated from IllustrisTNG Simulation and Their Cosmological Applications

Z. J. Zhang, Kai Yan, C. M. Li, G. Q. Zhang, F. Y. Wang

2021The Astrophysical Journal77 citationsDOIOpen Access PDF

Abstract

Abstract Fast radio bursts (FRBs) are millisecond-duration radio transients and can be used as a cosmological probe. However, the dispersion measure (DM) contributed by the intergalactic medium (IGM) is hard to distinguish from other components. In this paper, we use the IllustrisTNG simulation to realistically estimate DM IGM up to z ∼ 9. We find pc cm −3 at z = 1. The probability distribution of DM IGM can be well fitted by a quasi-Gaussian function with a long tail. The tail is caused by structures along the line of sight in the IGM. Subtracting DM contributions from the Milky Way and host galaxy for localized FRBs, the DM IGM value is close to that given by the derived DM IGM – z relation. We also show the ability to constrain the cosmic reionization history with DM IGM of high-redshift FRBs in the IllustrisTNG universe. The derived DM IGM – z relation at high redshifts can be well fitted by a tanh reionization model with the reionization redshift z = 5.95, which is compatible with the reionization model used by the IllustrisTNG simulation. DM IGM of high-redshift FRBs also provides an independent way to measure the optical depth of the cosmic microwave background. Our result can be used to derive the pseudo-redshifts of nonlocalized FRBs for DM IGM < 4000 pc cm −3 .

Topics & Concepts

ReionizationPhysicsRedshiftCosmic microwave backgroundAstrophysicsGalaxyIntergalactic mediumUniverseQuantum mechanicsAnisotropyRadio Astronomy Observations and TechnologyPulsars and Gravitational Waves ResearchGalaxies: Formation, Evolution, Phenomena
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