Probing Helium Reionization Through the 3He+ Hyperfine Transition Line

Abstract

We investigate the hyperfine transition of 3He+ as a promising probe of the IGM during the final stages of helium reionization. Utilising the most recent helium reionization simulation, we generate three-dimensional maps of the 3.5cm (8.67 GHz) differential brightness temperature and analyze its evolution. Our results show that the volume-averaged brightness temperature declines rapidly from 1 μK at z = 4 to 2.5 × 10-3 μK by z = 2.3, tracing the HeII to HeIII transition driven by quasars. The power spectrum of the 3.5cm signal exhibits a scale-dependent evolution, peaking on small scales and declining as reionization progresses. We explore the cross-correlation of the 3.5cm transition line with the distribution of AGNs, which shows a transition from positive to negative correlation as ionized regions grow. We also examine the 3.5cm forest and demonstrate that absorption features persist down to z 2.90, even when more than 85\% of HeII is ionized. Although current observational upper limits lie several orders of magnitude above theoretical predictions, future radio arrays such as SKA-mid offer promising prospects. Overall, this study highlights the 3He+ hyperfine transition as a sensitive tracer of the thermal and ionization history of the IGM during helium reionization.

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