Prospects for detecting the 21 cm forest from the diffuse intergalactic medium with LOFAR

B. Ciardi, P. Labropoulos, A. Maselli, R. Thomas, S. Zaroubi, L. Graziani, J. S. Bolton, G. Bernardi, M. Brentjens, A. G. de Bruyn, S. Daiboo, G. J A Harker, V. Jelic, S. Kazemi, L. V E Koopmans, O. Martinez, G. Mellema, A. R. Offringa, V. N. Pandey, J. SchayeV. Veligatla, H. Vedantham, S. Yatawatta

Research output: Contribution to journalArticlepeer-review

Abstract

We discuss the feasibility of the detection of the 21 cm forest in the diffuse intergalactic medium (IGM) with the radio telescope LOFAR. The optical depth to the 21 cm line has been derived using simulations of reionization which include detailed radiative transfer of ionizing photons. We find that the spectra from reionization models with similar total comoving hydrogen ionizing emissivity but different frequency distribution look remarkably similar. Thus, unless the reionization histories are very different from each other (e.g. a predominance of UV versus X-ray heating) we do not expect to distinguish them by means of observations of the 21 cm forest. Because the presence of a strong X-ray background would make the detection of the 21 cm line absorption impossible, the lack of absorption could be used as a probe of the presence/intensity of the X-ray background and the thermal history of the Universe. Along a random line of sight LOFAR could detect a global suppression of the spectrum from z ≥ 12, when the IGM is still mostly neutral and cold, in contrast with the more well-defined, albeit broad, absorption features visible at lower redshift. Sharp, strong absorption features associated with rare, high-density pockets of gas could also be detected at z ~ 7 along preferential lines of sight.

Original languageEnglish
Pages (from-to)1755-1765
Number of pages11
JournalMonthly Notices of the Royal Astronomical Society
Volume428
Issue number2
DOIs
Publication statusPublished - Jan 2013

Keywords

  • Dark ages: reionization: first stars
  • Intergalactic medium
  • Radio astronomy
  • Radio continuum: general
  • Radio lines: general

ASJC Scopus subject areas

  • Space and Planetary Science
  • Astronomy and Astrophysics

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