A robust family of residually finite groups; spectra of residual finiteness growth, computability properties, and other applications (with an appendix by Arman Darbinyan and Emmanuel Rauzy)

Abstract

In this paper, we introduce a family of residually finite groups that helps us to systematically study the residual finiteness growth function (RFG) from various perspectives. First, by strengthening results of Bou-Rabee and Seward and also of Bradford, we show that any non-decreasing function f: → that satisfies f(n) > ( nn) for some >0 can be realized (up to the standard equivalence) as RFG function of a two-generated residually finite group. Moreover, such a group can be found among solvable groups of derived length 3; due to what, in a strengthened way, we extend a theorem of Kharlampovich, Miasnikov and Sapir. Next, we consider computability aspects related to those growth functions. In particular, we characterize the decidability of the word problem in residually finite groups with respect to individual residual finiteness depth functions. Then, we give a full description of sufficiently fast growing functions that are realizable as RFG for some group with decidable word problem in terms of left-computable functions. We also show that a Turing degree can be realized via RFG of a group with decidable word problem if and only if it is recursively enumerable. Finally, applying the introduced theoretical framework, we answer several open questions and extend known results. For example, answering a question of Minasyan, by providing a construction, we show the existence of conjugacy separable groups with decidable word problem and undecidable conjugacy problem. Two more applications, including an answer to a question by Nies, can be found in the appendix coauthored with Rauzy.