Scalings between Physical and their Observationally related Quantities of Merger Remnants
Abstract
We present scaling relations between the virial velocity (V) and the one-dimensional central velocity dispersion (Sig0); the gravitational radius (Rv) and the effective radius (Re); and the total mass (M) and the luminous mass (ML) found in N-body simulations of binary mergers of spiral galaxies. These scalings are of the form V2 ~ Sig0alpha, Rv ~ Rebeta and M ~ MLgamma. The particlar values obtained for (alpha,beta,gamma) depend on the method of fitting used [ordinary least-squares (ols) or orthogonal distance regression (odr)], the assumed profile [de Vaucouleurs (deV) or Sersic (S)], and the size of the radial interval where the fit is done. The alpha and gamma indexes turn out more sensitive to the fitting procedure, obtaining for the ols a mean alphaols=1.51 and gammaols=0.69, while for the odr alphaodr=2.35 and gammaodr=0.76. The beta index depends more on the adopted type of profile, with betadeV=0.13 and betaS=0.27. We conclude that dissipationless formed remnants of mergers have a strong breaking of structural and kinematical homology.
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