The nucleus of the sagittarius dSph galaxy and M54: A window on the process of galaxy nucleation

We present the results of a thorough study of the nucleus of the Sgr dwarf spheroidal galaxy ( Sgr dSph) and of the bright globular cluster M54 (NGC 6715) that resides within the same nucleus ( Sgr, N). We have obtained accurate radial velocities and metallicity estimates for 1152 candidate red giant branch stars of Sgr and M54 lying within similar to 9' from the center of the galaxy, from Keck/DEIMOS and VLT/FLAMES spectra of the infrared Ca IIii triplet. Using both velocity and metallicity information we selected two samples of 425 and 321 very likely members of M54 and of Sgr, N, respectively. The two considered systems display significantly different velocity dispersion profiles. M54 has a steeply decreasing profile from r = 0', where sigma similar or equal to 14.2 km s(-1), to r similar or equal to 3.'5 where it reaches sigma similar or equal to 5.3 km s(-1), then it appears to rise again to s similar or equal to 10 km s(-1) at r similar to 7'. In contrast Sgr, N has a uniformly flat profile at sigma similar or equal to 9.6 km s(-1) over the whole 0' <= r <= 9' range. Using data from the literature we show that the velocity dispersion of Sgr remains constant at least out to r similar to 100' and there is no sign of the transition between the outer flat-luminosity-profile core and the inner nucleus in the velocity profile. These results, together with a re-analysis of the surface brightness profile of Sgr, N and a suite of dedicated N-body simulations, provide very strong support for the hypothesis that the nucleus of Sgr formed independently of M54, which probably plunged to its present position, coincident with Sgr, N, because of significant decay of the original orbit due to dynamical friction.