We report the detection of broad Ha emission in three X-ray selected obscured AGNs at z similar to 1-2. By exploiting the Ha width and the intrinsic X-ray luminosity, we estimate their black hole masses, which are in the range 0.1-3 x 10(9) M(circle dot). By means of multi-band photometric data, we measure the stellar mass of their host galaxy and, therefore, infer their M(BH)/M(star) ratio. These are the first obscured AGNs at high-z, selected based on their black hole accretion (i.e. on the basis of their X-ray luminosity), that can be located on the M(BH) - M(star) relation at high-z. All of these obscured high-z AGNs are fully consistent with the local M(BH) - M(star) relation. This result conflicts with those for other samples of AGNs in the same redshift range, whose M(BH)/M(star) ratio departs significantly from the value observed in local galaxies. We suggest that the obscured AGNs in our sample are in an advanced evolutionary stage, have already settled onto the local M(BH)-M(star) relation, and whose nuclear activity has been temporarily revived by recent galaxy interactions.
Sarria, J.e., Maiolino, R., LA FRANCA, F., Pozzi, F., Fiore, F., Marconi, A., et al. (2010). The M(BH) - M(star) relation of obscured AGNs at high redshift. ASTRONOMY & ASTROPHYSICS, 522, L3 [10.1051/0004-6361/201015696].
The M(BH) - M(star) relation of obscured AGNs at high redshift
LA FRANCA, Fabio;
2010-01-01
Abstract
We report the detection of broad Ha emission in three X-ray selected obscured AGNs at z similar to 1-2. By exploiting the Ha width and the intrinsic X-ray luminosity, we estimate their black hole masses, which are in the range 0.1-3 x 10(9) M(circle dot). By means of multi-band photometric data, we measure the stellar mass of their host galaxy and, therefore, infer their M(BH)/M(star) ratio. These are the first obscured AGNs at high-z, selected based on their black hole accretion (i.e. on the basis of their X-ray luminosity), that can be located on the M(BH) - M(star) relation at high-z. All of these obscured high-z AGNs are fully consistent with the local M(BH) - M(star) relation. This result conflicts with those for other samples of AGNs in the same redshift range, whose M(BH)/M(star) ratio departs significantly from the value observed in local galaxies. We suggest that the obscured AGNs in our sample are in an advanced evolutionary stage, have already settled onto the local M(BH)-M(star) relation, and whose nuclear activity has been temporarily revived by recent galaxy interactions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.