Fluctuations of the intergalactic UV background  towards two lines of sight

Fechner, C.; Reimers, D.

doi:10.1051/0004-6361:20065556

Cited by 33 publications

(73 citation statements)

References 44 publications

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“…In that case, η ∼ 40-80 Zheng et al 2004;Fechner et al 2006;Fechner & Reimers 2007) implies r 0 ∼ 110-160 Mpc at z ∼ 2.5. A separate argument comes from matching the (measured) emissivity of the quasar population with the observed optical depth of the He ii forest.…”

Section: Quasars and Radiation Peaks: Finite Lifetimesmentioning

confidence: 95%

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CONSTRAINTS ON QUASAR LIFETIMES AND BEAMING FROM THE He II Lyα FOREST

Furlanetto

Lidz

2011

ApJ

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We show that comparisons of He ii Lyα forest lines of sight to nearby quasar populations can strongly constrain the lifetimes and emission geometry of quasars. By comparing the He ii and H i Lyα forests along a particular line of sight, one can trace fluctuations in the hardness of the radiation field (which are driven by fluctuations in the He ii ionization rate). Because this high-energy background is highly variable-thanks to the rarity of the bright quasars that dominate it and the relatively short attenuation lengths of these photons-it is straightforward to associate features in the radiation field with their source quasars. Here we quantify how finite lifetimes and beamed emission geometries affect these expectations. Finite lifetimes induce a time delay that displaces the observed radiation peak relative to the quasar. For beamed emission, geometry dictates that sources invisible to the observer can still create a peak in the radiation field. We show that both these models produce substantial populations of "bare" peaks (without an associated quasar) for reasonable parameter values (lifetimes ∼10 6 -10 8 yr and beaming angles 90 • ). A comparison to existing quasar surveys along two He ii Lyα forest lines of sight rules out isotropic emission and infinite lifetime at high confidence; they can be accommodated either by moderate beaming or lifetimes ∼10 7 -10 8 yr. We also show that the distribution of radial displacements between peaks and their quasars can unambiguously distinguish these two models, although larger statistical samples are needed.

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Section: Quasars and Radiation Peaks: Finite Lifetimesmentioning

confidence: 95%

“…The best sample so far surrounds the line of sight to HE 2347-4342, whose He ii forest has been extensively studied Shull et al 2004;Fechner & Reimers 2007;Shull et al 2010). Worseck et al (2007) searched for nearby quasars with L min 1-2 × 10 11 L and a maximum impact parameter ∼12 comoving Mpc.…”

Section: Comparison To Existing Observationsmentioning

confidence: 99%

CONSTRAINTS ON QUASAR LIFETIMES AND BEAMING FROM THE He II Lyα FOREST

Furlanetto

Lidz

2011

ApJ

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“…Three different analysis methods have been applied to the observations of the He  Lyα forest so far: line profile fitting (Kriss et al 2001;Zheng et al 2004;Fechner et al 2006a), an apparent optical depth method (Shull et al 2004;Fechner et al 2006a) and spectrum fitting (Fechner & Reimers 2007). The latter fits the high-quality optical H  spectrum directly to the He  data, and allows to estimate the length scales of η variations.…”

Section: Methodsmentioning

confidence: 99%

“…There are several suggestions for a physical explanation of this correlation like self-shielding and shadowing effects (Maselli & Ferrara 2005;Tittley & Meiksin 2006) and the spatial distribution of QSOs as the sources of hard radiation (Bolton et al 2006). However, Fechner & Reimers (2007) suggested that part of the correlation might be due to the unjustified assumption that the line widths of the absorption features are dominated by purely turbulent broadening. If this assumption is incorrect, a correlation between the η value and the absorber density will be introduced artificially.…”

Section: Send Offprint Requests To: C Fechnermentioning

confidence: 99%

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The HeII Lyman alpha forest and the thermal state of the IGM

Fechner

Reimers

2006

A&A

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Aims. Recent analyses of the intergalactic UV background by means of the He  Lyα forest assume that He  and H  absorption features have the same line widths. We omit this assumption to investigate possible effects of thermal line broadening on the inferred He /H  ratio η and to explore the potential of intergalactic He  observations to constrain the thermal state of the intergalactic medium. Methods. Deriving a simple relation between the column density and the temperature of an absorber based on the temperature-density relation T = T 0 (1 + δ) γ−1 we develop a procedure to fit T 0 , γ, and η simultaneously by modeling the observed spectra with Doppler profiles. In an alternative approach the temperature T of an absorber, the He /H  ratio η, and the redshift scale of η variations are estimated simultaneously by optimizing the Doppler parameters of He .Results. Testing our procedure with artificial data shows that well-constrained results can be obtained only if the signal-to-noise ratio in the He  forest is S /N > ∼ 20. Additionally, ambiguities in the line profile decomposition may result in significant systematic errors. Thus, it is impossible to give an estimate of the temperature-density relation with the He  data available at present (S /N ∼ 5).However, we find that only 45% of the lines in our sample favor turbulent line widths while the remaining lines are probably affected by thermal broadening. Furthermore, the inferred η values are on average about 0.05 dex larger if a thermal component is taken into account, and their distribution is 46% narrower in comparison to a purely turbulent fit. Therefore, variations of η on a 10% level may be related to the presence of thermal line broadening. The apparent correlation between the strength of the H  absorption and the η value, which has been found in former studies assuming turbulent line broadening, essentially disappears if thermal broadening is taken into account. In the redshift range 2.58 < z < 2.74 towards the quasars HE 2347-4342 and HS 1700+6416 we obtain η ≈ 100 and slightly larger. In the same redshift range the far-UV spectrum of HS 1700+6416 is best and we estimate a mean value of log η = 2.11 ± 0.32 taking into account combined thermal and turbulent broadening.

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