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The first ultraviolet quasar stacked spectrum at z=2.4 from WFC3

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 Added by Elisabeta Lusso Dr
 Publication date 2015
  fields Physics
and research's language is English




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The ionising continuum from active galactic nuclei (AGN) is fundamental for interpreting their broad emission lines and understanding their impact on the surrounding gas. Furthermore, it provides hints on how matter accretes onto supermassive black holes. Using HSTs Wide Field Camera 3 we have constructed the first stacked ultraviolet (rest-frame wavelengths 600-2500AA) spectrum of 53 luminous quasars at z=2.4, with a state-of-the-art correction for the intervening Lyman forest and Lyman continuum absorption. The continuum slope ($f_ u propto u^{alpha_ u}$) of the full sample shows a break at ~912AA with spectral index $alpha_ u=-0.61pm0.01$ at $lambda>912$AA and a softening at shorter wavelengths ($alpha_ u=-1.70 pm 0.61$ at $lambdaleq 912$AA). Our analysis proves that a proper intergalactic medium absorption correction is required to establish the intrinsic continuum emission of quasars. We interpret our average ultraviolet spectrum in the context of photoionisation, accretion disk models, and quasar contribution to the ultraviolet background. We find that observed broad line ratios are consistent with those predicted assuming an ionising slope of $alpha_mathrm{ion}=$-2.0, similar to the observed ionising spectrum in the same wavelength range. The continuum break and softening are consistent with accretion disk plus X-ray corona models when black hole spin is taken into account. Our spectral energy distribution yields a 30% increase to previous estimates of the specific quasar emissivity, such that quasars may contribute significantly to the total specific Lyman limit emissivity estimated from the Ly$alpha$ forest at z<3.2.



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