Piconcelli, E.E.PiconcelliFiore, F.F.FioreNicastro, F.F.NicastroPuccetti, SimonettaSimonettaPuccetti2020-09-172020-09-172007-10-01https://hdl.handle.net/20.500.13025/744Astronomy and Astrophysics, Volume 473, Issue 1, October I 2007, pp.85-89Aims We report on a 14 ks XMM-Newton observation of the hyperluminous infrared galaxy IRAS 09104+4109, which harbors a type 2 quasar in its nucleus. Our analysis was aimed at studying the properties of the absorbing matter and the Fe K complex at 6-7 keV in this source. <BR />Methods We analyzed the spectroscopic data from the PN and the MOS cameras in the 0.4-10 keV band. We also used an archival BeppoSAX 1-50 keV observation of IRAS 09104+4109 to investigate possible variations of the quasar emission. <BR />Results The X-ray emission in the EPIC band is dominated by the intra-cluster medium thermal emission. We found that the quasar contributes ~35% of the total flux in the 2-10 keV band. Both a transmission- (through a Compton-thin absorber with a Compton optical depth of tau<SUB>C</SUB> &tilde; 0.3, i.e. N<SUB>H</SUB> &tilde; 5 10<SUP>23</SUP> cm<SUP>-2</SUP>) and a reflection-dominated (tau<SUB>C</SUB> > 1) model provide an excellent fit to the quasar continuum emission. However, the value measured for the EW of Fe Kalpha emission line is only marginally consistent with the presence of a Compton-thick absorber in a reflection-dominated scenario, which had been suggested by a previous, marginal (i.e. 2.5sigma) detection with the hard X-ray (15-50 keV), non-imaging BeppoSAX/PDS instrument. Moreover, the value of luminosity in the 2-10 keV band measured by the transmission-dominated model is fully consistent with that expected on the basis of the bolometric luminosity of IRAS 09104+4109. From the analysis of the XMM-Newton data we therefore suggest the possibility that the absorber along the line of sight to the nucleus of IRAS 09104+4109 is Compton-thin. Alternatively, the absorber column density could have changed from Compton-thick to -thin in the five years elapsed between the observations. If this is the case, then IRAS 09104+4109 is the first ``changing-look'' quasar ever detected.galaxies individual IRAS 09104+4109galaxies activegalaxies nucleiX-ray galaxies10.1051/0004-6361 20077630http://adsabs.harvard.edu/abs/2007A&A...473...85P2007A&A...473...85P