The first ultraviolet quasar-stacked spectrum at z ≃ 2.4 from WFC3

Lusso, Elisabeta; Worseck, G.; Hennawi, Joseph F.; Prochaska, J. Xavier; Vignali, C.; Stern, Jonathan; O’Meara, John M.

doi:10.1093/mnras/stv516

Cited by 266 publications

(386 citation statements)

References 89 publications

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“…The physical scales locally are expected to be larger (Bentz et al 2013), which will make variability timescales longer and variability magnitudes smaller (Vanden Berk et al 2004;Schmidt et al 2012). Blackhole masses as determined from Mg  increases with luminosity (Wu et al 2015) which in turn affects the temperature of the accretion disc (Shakura & Sunyaev 1973;Pereyra et al 2006) and thereby the position of the "big blue bump" and the degree to which the continuum is well modeled by a single power law (see also Lusso et al 2015, for a discussion). As can be seen from Overplotted in dark green is the corresponding composite generated from the full sample of SDSS quasars fulfilling the selection criteria and general agreement is observed, albeit with a brighter Balmer continuum in the SDSS-constructed composite.…”

Section: Comparison To Global Populationmentioning

confidence: 99%

“…The composite by Vanden Berk et al (2001) consists of 2204 SDSS quasars at z median = 1.253 with absolute M r -magnitudes between −18.0 and −26.5 and therefore intrinsically fainter and lower redshift objects. Lusso et al (2015) calculated the M i (z = 2) mag for the 184 constituent objects in Telfer et al (2002) observed with FOS, GHRS and STIS onboard the Hubble Space Telescope and find an average M i (z = 2) ∼ −27.5 at z ∼ 1.2, which yields a composite of fainter, more nearby sources. For construction of a composite, Glikman et al (2006) used 27 objects at z ∼ 0.25 with an average absolute i-band magnitude M i ∼ −24 observed with IRTF, therefore constituting a Notes.…”

Section: Comparison To Existing Compositesmentioning

confidence: 99%

“…Lastly, Lusso et al (2015) used 53 quasars observed with WFC3 at z ∼ 2.4 with absolute i-band magnitudes at redshift 2, M i (z = 2) ∼ −28.5, so of comparable brightness, but at slightly larger distances. Regardless of the variation across selection criteria, luminosities and redshifts, a remarkable similarity in the overall shape is visible over a wide wavelength range.…”

Section: Comparison To Existing Compositesmentioning

confidence: 99%

“…Examples of such composite spectra include template spectra of various classes of galaxies (Mannucci et al 2001;Shapley et al 2003;Dobos et al 2012), quasi-stellar object (QSO; Cristiani & Vio 1990;Boyle 1990;Francis et al 1991;Zheng et al 1997;Brotherton et al 2001;Vanden Berk et al 2001;Telfer et al 2002;Richards et al 2006a;Glikman et al 2006;Lusso et al 2015) and gamma-ray burst (GRB) afterglows (Christensen et al 2011). When investigating dust in QSOs or in galaxies along QSO sightlines, template spectra can be used to determine the amount of extinction by artificially reddening the template to match an observed spectrum (e.g., Glikman et al 2007;Urrutia et al 2009;Wang et al 2012;Fynbo et al 2013;Krogager et al 2015).…”

Section: Introductionmentioning

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: Comparison To Global Populationmentioning

confidence: 99%

Section: Comparison To Existing Compositesmentioning

confidence: 99%

Section: Comparison To Existing Compositesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

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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“…Continuum recovery in this region requires high-resolution UV spectra, e.g. from HST (Finn et al 2014;Lusso et al 2015).…”

Section: Data and Sed Constructionmentioning

confidence: 99%

Reaching the peak of the quasar spectral energy distribution – II. Exploring the accretion disc, dusty torus and host galaxy

Collinson

Ward

Landt

et al. 2016

Mon. Not. R. Astron. Soc.

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The Self Assembly of the Universe and the Elements of the Periodic Table

Sillerud

2024

Abiogenesis

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The first ultraviolet quasar-stacked spectrum at z ≃ 2.4 from WFC3

Cited by 266 publications

References 89 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

Reaching the peak of the quasar spectral energy distribution – II. Exploring the accretion disc, dusty torus and host galaxy

The Self Assembly of the Universe and the Elements of the Periodic Table

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