Further properties of the dynamical clock A+ indicator in a toy model of pure dynamical friction

Abstract

The Alessandrini A+ indicator is a quantitative measure of star cluster dynamical evolution based on the mass-segregation of blue straggler stars. A+ is defined as the integral of the cumulative distribution of blue straggler stars with the radius measured in logarithmic scale, minus a term related to the reference population used. In a companion paper I introduced a simplified model of dynamical friction and calculated the A+ indicator analytically. Here I show further properties of the time evolution of A+, focusing in particular on the physical interpretation of its time derivative dA+/dt. I find that dA+/dt is the mean of the reciprocal dyamical friction timescale, weighted by the density of blue straggler stars. I show that it is non-negative (as expected based on monotonicity) due to the density of blue-straggler stars being non-negative and that, for a dynamical friction timescale that is non-decreasing with radius, dA+/dt is also non-decreasing with time, making the A+ indicator a convex function.