An unbiased measurement of the UV background and its evolution via the
 proximity effect in quasar spectra

Dall'Aglio, Aldo; Wisotzki, L.; Worseck, G.

doi:10.1051/0004-6361:200810724

Cited by 104 publications

(146 citation statements)

References 72 publications

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“…A common way to correct for this absorption is to obtain a spectrum at a sufficiently high resolution to be able to trace the continuum emission by visual inspection. At z < 2 the Lyα forest absorption is not yet heavily blended (Dall'Aglio et al 2008), and the X-Shooter resolution allows us to effectively trace the continuum. To recover the continuum we insert points blueward of Lyα where the continuum is visually estimated.…”

Section: Igm Absorption Correctionmentioning

confidence: 99%

“…No correction has been applied in the composites by Francis et al (1991) andVanden Berk et al (2001) and a sharp decrease in continuum flux is detected. Because higher redshift objects contribute mostly at shorter wavelengths, significant Lyα absorption is expected regardless due to the Lyα opacity evolution (Moller & Jakobsen 1990;Madau 1995;Dall'Aglio et al 2008). The IGM correction of Telfer et al (2002) is a hybrid in which some manual and some statistical correction has been applied.…”

Section: Comparison To Existing Compositesmentioning

confidence: 99%

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An X-Shooter composite of bright 1 <z< 2 quasars from UV to infrared

Selsing

Fynbo

Christensen

et al. 2015

A&A

160

180

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Quasi-stellar object (QSO) spectral templates are important both to QSO physics and for investigations that use QSOs as probes of intervening gas and dust. However, combinations of various QSO samples obtained at different times and with different instruments so as to expand a composite and to cover a wider rest frame wavelength region may create systematic effects, and the contribution from QSO hosts may contaminate the composite. We have constructed a composite spectrum from luminous blue QSOs at 1 < z < 2.1 selected from the Sloan Digital Sky Survey (SDSS). The observations with X-Shooter simultaneously cover ultraviolet (UV) to nearinfrared (NIR) light, which ensures that the composite spectrum covers the full rest-frame range from Lyβ to 11 350 Å without any significant host contamination. Assuming a power-law continuum for the composite we find a spectral slope of α λ = 1.70 ± 0.01, which is steeper than previously found in the literature. We attribute the differences to our broader spectral wavelength coverage, which allows us to effectively avoid fitting any regions that are affected either by strong QSO emissions lines (e.g., Balmer lines and complex [Fe II] blends) or by intrinsic host galaxy emission. Finally, we demonstrate the application of the QSO composite spectrum for evaluating the reddening in other QSOs.

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Section: Igm Absorption Correctionmentioning

confidence: 99%

Section: Comparison To Existing Compositesmentioning

confidence: 99%

An X-Shooter composite of bright 1 <z< 2 quasars from UV to infrared

Selsing

Fynbo

Christensen

et al. 2015

A&A

160

180

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“…The eigenvectors and coefficients as derived by S05 at low redshift were used to generate mock spectra to test different analyses at high redshift (Dall'Aglio et al 2008;Kirkman et al 2005). …”

Section: Predicted Continuummentioning

confidence: 99%

“…Numerous authors have performed this measurement using high and/or intermediate spectral resolution data (e.g. Songaila 2004;Bernardi et al 2003;Dall'Aglio et al 2008Faucher-Giguère et al 2008). The evolution is smooth except for a possible bump at z ∼ 3.2, which could be related to the He ii reionization (Schaye et al 2000), although this is not the only possible explanation (Faucher-Giguère et al 2008).…”

Section: Evolution Of the Mean Fluxmentioning

confidence: 99%

A principal component analysis of quasar UV spectra atz ~ 3

Pâris

Petitjean

Rollinde

et al. 2011

A&A

121

190

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From a principal component analysis (PCA) of 78 z ∼ 3 high-quality quasar spectra in the SDSS-DR7 we derive the principal components that characterize the QSO continuum over the full available wavelength range. The shape of the mean continuum is similar to that measured at low-z (z ∼ 1), but the equivalent width of the emission lines is larger at low redshift. We calculate the correlation between fluxes at different wavelengths and find that the emission line fluxes in the red part of the spectrum are correlated with those in the blue part. We construct a projection matrix to predict the continuum in the Lyman-α forest from the red part of the spectrum. We apply this matrix to quasars in the SDSS-DR7 to derive the evolution with redshift of the mean flux in the Lyman-α forest caused by the absorption by the intergalactic neutral hydrogen. A change in the evolution of the mean flux is apparent around z ∼ 3 as a steeper decrease of the mean flux at higher redshifts. The same evolution is found when the continuum is estimated from the extrapolation of a power-law continuum fitted in the red part of the quasar spectrum if a correction derived from simple simulations is applied. Our findings are consistent with previous determinations using high spectral resolution data. We provide the PCA eigenvectors over the wavelength range 1020−2000 Å and the distribution of their weights that can be used to simulate QSO mock spectra.

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“…The cross section of the sphere of influence is defined by a radiusR at which the AGN radiation flux at 1 Ryd, J q ν (R), becomes equal to the mean background metagalactic flux, J bg ν (z). At redshift z = 1.9, the value of J bg ν ∼ 6 × 10 −22 erg cm −2 s −1 Hz −1 sr −1 at 1 Ryd was measured in Tytler et al (2004), Bolton et al (2005), and Dall'Aglio et al (2008). Taking the AGN comoving space density at this redshift from Wolf et al (2003) and Croom et al (2009) and choosing Δz = 0.05, we calculate the intersection probability p depending on the source absolute magnitude M B (blue curve in Fig.…”

Section: Discussionmentioning

confidence: 99%

Fluctuations of the intergalactic ionization field at redshiftz~ 2

Agafonova

Levshakov

Reimers

et al. 2013

A&A

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Aims. To probe the spectral energy distribution (SED) of the ionizing background radiation at z 2 and to specify the sources contributing to the intergalactic radiation field. Methods. The spectrum of a bright quasar HS 1103+6416 (z em = 2.19) contains five successive metal-line absorption systems at z abs = 1.1923, 1.7193, 1.8873, 1.8916, and 1.9410. The systems are optically thin and reveal multiple lines of different metal ions with the ionization potentials lying in the extreme ultraviolet (EUV) range (∼1 Ryd to ∼0.2 keV). For each system, the EUV SED of the underlying ionization field is reconstructed by means of a special technique developed for solving the inverse problem in spectroscopy.For the z abs = 1.8916 system, the analysis also involves the He i resonance lines of the Lyman series and the He i λ504 Å continuum, which are seen for the first time in any cosmic object except the Sun. Results. From one system to another, the SED of the ionizing continuum changes significantly, indicating that the intergalactic ionization field at z 2 fluctuates at the scale of at least Δ z ∼ 0.004. This is consistent with Δ z 0.01 estimated from He ii and H i Lyman-α forest measurements between the redshifts 2 and 3. A radiation intensity break by approximately an order of magnitude at E = 4 Ryd in SEDs restored for the z abs = 1.1923, 1.8873, 1.8916, and 1.9410 systems points to quasars as the main sources of the ionizing radiation. The SED variability is mostly caused by a small number of objects contributing at any given redshift to the ionizing background; at scales Δ z 0.05, the influence of local radiation sources becomes significant. A remarkable SED restored for the z abs = 1.7193 system, with a sharp break shifted to E ∼ 3.5 Ryd and a subsequent intensity decrease by ∼1.5 dex, indicates a source with comparable inputs of both hard (active galactic nuclei, AGN) and soft (stellar) radiation components. Such a continuum can be emitted by (ultra) luminous infrared galaxies, many of which reveal both a strong AGN activity and intense star formation in the circumnuclear regions.

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An unbiased measurement of the UV background and its evolution via the proximity effect in quasar spectra

Cited by 104 publications

References 72 publications

An X-Shooter composite of bright 1 <z< 2 quasars from UV to infrared

An X-Shooter composite of bright 1 <z< 2 quasars from UV to infrared

A principal component analysis of quasar UV spectra atz ~ 3

Fluctuations of the intergalactic ionization field at redshiftz~ 2

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