X-ray spectroscopy of the z=6.4 quasar J1148+5251

Abstract

We present the 78-ks Chandra observations of the z=6.4 quasar SDSS J1148+5251. The source is clearly detected in the energy range 0.3-7 keV with 42 counts (with a significance 9σ). The X-ray spectrum is best-fitted by a power-law with photon index =1.9 absorbed by a gas column density of N H=2.0+2.0-1.5×1023\, cm-2. We measure an intrinsic luminosity at 2-10 keV and 10-40 keV equal to 1.5× 1045~ erg~s-1, comparable with luminous local and intermediate-redshift quasar properties. Moreover, the X-ray to optical power-law slope value (α OX=-1.76 0.14) of J1148 is consistent with the one found in quasars with similar rest-frame 2500 ~luminosity (L 2500 1032~ erg~s-1-1). Then we use Chandra data to test a physically motivated model that computes the intrinsic X-ray flux emitted by a quasar starting from the properties of the powering black hole and assuming that X-ray emission is attenuated by intervening, metal-rich (Z≥ Z) molecular clouds distributed on scales in the host galaxy. Our analysis favors a black hole mass M BH 3× 109 M and a molecular hydrogen mass M H2 2× 1010 M, in good agreement with estimates obtained from previous studies. We finally discuss strengths and limits of our analysis.