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The $R_\infty$ property for nilpotent quotients of surface groups

It is well known that when $G$ is the fundamental group of a closed surface of negative Euler characteristic, it has the $R_{\infty}$ property. In this work we compute the least integer $c$, {\it called the $R_{\infty}$-nilpotency degree of $G$}, such that the group $G/ γ_{c+1}(G)$ has the $R_{\infty}$ property, where $γ_r(G)$ is the $r$-th term of the lower central series of $G$. We show that $c=4$ for $G$ the fundamental group of any orientable closed surface $S_g$ of genus $g>1$. For the fundamental group of the non-orientable surface $N_g$ (the connected sum of $g$ projective planes) this number is $2(g-1)$ (when $g>2$). A similar concept is introduced using the derived series $G^{(r)}$ of a group $G$. Namely {\it the $R_{\infty}$-solvability degree of $G$}, which is the least integer $c$ such that the group $G/G^{(c)}$ has the $R_{\infty}$ property. We show that the fundamental group of an orientable closed surface $S_g$ has $R_{\infty}$-solvability degree $2$.