The He i 584 Å forest as a diagnostic of helium reionization

We discuss the potential of using the He i 584 Å forest to detect and study He ii reionization. Significant 584 Å absorption is expected from intergalactic He ii regions, whereas there should be no detectable absorption from low-density gas in He iii regions. Unlike He ii Lyα absorption (the subject...

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Published in	Monthly notices of the Royal Astronomical Society Vol. 408; no. 3; pp. 1945 - 1955
Main Authors	McQuinn, Matthew, Switzer, Eric R.
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.11.2010 Wiley-Blackwell
Subjects	Astronomy cosmology: theory Earth, ocean, space Exact sciences and technology intergalactic medium quasars: absorption lines Cross correlations Quasars Intergalactic matter Absorption line Red shift quasars: absorption lines Saturation Signal-to-noise ratio Cosmology intergalactic medium Optical thickness cosmology: theory
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ISSN	0035-8711 1365-2966
DOI	10.1111/j.1365-2966.2010.17272.x

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Abstract	We discuss the potential of using the He i 584 Å forest to detect and study He ii reionization. Significant 584 Å absorption is expected from intergalactic He ii regions, whereas there should be no detectable absorption from low-density gas in He iii regions. Unlike He ii Lyα absorption (the subject of much recent study), the difficulty with using this transition to study He ii reionization is not saturation but rather that the absorption is weak. The Gunn–Peterson optical depth for this transition is τ∼ 0.1xHe ii Δ2 [(1 +z)/5]9/2, where xHe ii is the fraction of helium in He ii and Δ is the density in units of the cosmic mean. In addition, He i 584 Å absorption is contaminated by lower redshift H i Lyα absorption with a comparable flux decrement. We estimate the requirements for a definitive detection of redshifted He i absorption from low-density gas (Δ≈ 1), which would indicate that He ii reionization was occurring. We find that this objective can be accomplished (using coeval H i Lyα absorption to mask dense regions and in cross-correlation) with a spectral resolution of 104 and a signal-to-noise ratio per resolution element of ∼10. Such specifications may be achievable on a few known z∼ 3.5 quasar sightlines with the Cosmic Origins Spectrograph on the Hubble Space Telescope. We also discuss how He i absorption can be used to measure the hardness of the ionizing background above 13.6 eV.
AbstractList	ABSTRACTWe discuss the potential of using the He i 584 A forest to detect and study He ii reionization. Significant 584 A absorption is expected from intergalactic He ii regions, whereas there should be no detectable absorption from low-density gas in He iii regions. Unlike He ii Lya absorption (the subject of much recent study), the difficulty with using this transition to study He ii reionization is not saturation but rather that the absorption is weak. The Gunn-Peterson optical depth for this transition is t 6 0.1xHe ii 2 [(1 + z)-5]9-2, where xHe ii is the fraction of helium in He ii and is the density in units of the cosmic mean. In addition, He i 584 A absorption is contaminated by lower redshift H i Lya absorption with a comparable flux decrement. We estimate the requirements for a definitive detection of redshifted He i absorption from low-density gas ( - 1), which would indicate that He ii reionization was occurring. We find that this objective can be accomplished (using coeval H i Lya absorption to mask dense regions and in cross-correlation) with a spectral resolution of 104 and a signal-to-noise ratio per resolution element of 610. Such specifications may be achievable on a few known z 6 3.5 quasar sightlines with the Cosmic Origins Spectrograph on the Hubble Space Telescope. We also discuss how He i absorption can be used to measure the hardness of the ionizing background above 13.6 eV. ABSTRACT We discuss the potential of using the He i 584 Å forest to detect and study He ii reionization. Significant 584 Å absorption is expected from intergalactic He ii regions, whereas there should be no detectable absorption from low‐density gas in He iii regions. Unlike He ii Lyα absorption (the subject of much recent study), the difficulty with using this transition to study He ii reionization is not saturation but rather that the absorption is weak. The Gunn–Peterson optical depth for this transition is τ∼ 0.1xHe ii Δ2 [(1 +z)/5]9/2, where xHe ii is the fraction of helium in He ii and Δ is the density in units of the cosmic mean. In addition, He i 584 Å absorption is contaminated by lower redshift H i Lyα absorption with a comparable flux decrement. We estimate the requirements for a definitive detection of redshifted He i absorption from low‐density gas (Δ≈ 1), which would indicate that He ii reionization was occurring. We find that this objective can be accomplished (using coeval H i Lyα absorption to mask dense regions and in cross‐correlation) with a spectral resolution of 104 and a signal‐to‐noise ratio per resolution element of ∼10. Such specifications may be achievable on a few known z∼ 3.5 quasar sightlines with the Cosmic Origins Spectrograph on the Hubble Space Telescope. We also discuss how He i absorption can be used to measure the hardness of the ionizing background above 13.6 eV. We discuss the potential of using the He i 584 Å forest to detect and study He ii reionization. Significant 584 Å absorption is expected from intergalactic He ii regions, whereas there should be no detectable absorption from low-density gas in He iii regions. Unlike He ii Lyα absorption (the subject of much recent study), the difficulty with using this transition to study He ii reionization is not saturation but rather that the absorption is weak. The Gunn–Peterson optical depth for this transition is τ∼ 0.1xHe ii Δ2 [(1 +z)/5]9/2, where xHe ii is the fraction of helium in He ii and Δ is the density in units of the cosmic mean. In addition, He i 584 Å absorption is contaminated by lower redshift H i Lyα absorption with a comparable flux decrement. We estimate the requirements for a definitive detection of redshifted He i absorption from low-density gas (Δ≈ 1), which would indicate that He ii reionization was occurring. We find that this objective can be accomplished (using coeval H i Lyα absorption to mask dense regions and in cross-correlation) with a spectral resolution of 104 and a signal-to-noise ratio per resolution element of ∼10. Such specifications may be achievable on a few known z∼ 3.5 quasar sightlines with the Cosmic Origins Spectrograph on the Hubble Space Telescope. We also discuss how He i absorption can be used to measure the hardness of the ionizing background above 13.6 eV.
Author	Switzer, Eric R. McQuinn, Matthew
Author_xml	– sequence: 1 givenname: Matthew surname: McQuinn fullname: McQuinn, Matthew email: mmcquinn@berkeley.edu, * mmcquinn@berkeley.edu organization: Department of Astronomy, University of California, Berkeley, CA 94720, USA – sequence: 2 givenname: Eric R. surname: Switzer fullname: Switzer, Eric R. organization: Kavli Institute for Cosmological Physics, The University of Chicago, Chicago, IL 60637, USA
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SubjectTerms	Astronomy cosmology: theory Earth, ocean, space Exact sciences and technology intergalactic medium quasars: absorption lines
Title	The He i 584 Å forest as a diagnostic of helium reionization
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