Measuring of the masses of galactic supermassive black holes (SMBHs) is an important task, since they correlate with the host galaxy properties and play an important role in evolution of galaxies. Here we present a new method for measuring of SMBH ma
sses using the polarization of the broad lines emitted from active galactic nuclei (AGNs). We performed spectropolarometric observations of 9 AGNs and find that this method gives measured masses which are in a good agreement with reverberation measurements. An advantage of this method is that it can be used to measure the masses of SMBHs in a consistent way at different cosmological epochs.
By means of panoramic spectroscopy at the SAO RAS BTA telescope, we investigated the properties of stellar populations in the central regions of five early-type galaxies -- the NGC 524 group members. The evolution of the central regions of galaxies l
ooks synchronized: the average age of stars in the bulges of all the five galaxies lies in the range of 3--6 Gyr. Four of the five galaxies revealed synchronized bursts of star formation in the nuclei 1--2 Gyr ago. The only galaxy, in which the ages of stellar population in the nucleus and in the bulge coincide (i.e. the nuclear burst of star formation did not take place) is NGC 502, the farthest from the center of the group of all the galaxies studied.
We have studied the central parts of seven early-type galaxies -- the members of the X-ray-bright galaxy group NGC 80 -- by means of integral-field spectroscopy at the Russian 6m telescope. We searched for signatures of synchronous evolution of the g
roup galaxies. The following results have been obtained. Five galaxies have revealed old stellar populations in the bulges, with the SSP-equivalent ages from 10 to 15 Gyr. A moderate-luminous S0 galaxy IC 1548 demonstrates consequences of recent star formation burst: the SSP-equivalent age of the bulge is 3 Gyr, that of the nucleus -- 1.5 Gyr. It is also in this galaxy that we have found a circumnuclear polar gaseous disk which changes smoothly to counterrotating one at radii larger than 3 arcsec(1 kpc). Probably, IC 1548 had suffered an interaction with external gas accretion which might also provoke the central star formation burst. In the giant E0 galaxy NGC 83 which is projected close to the group center but has a line-of-sight velocity redshifted by 600 km/s with respect to the group systemic velocity, we have observed a compact massive stellar-gaseous disk with the radius of some 2 kpc demonstrating current star formation. Consequently, NGC 83, just as IC 1548, has the young stellar population in the center. We speculate that a small subgroup leaded by NGC 83 is in process of infalling into the old massive group around NGC 80.
