Equivariant algebraic $\mathrm{K}$-theory and Artin $L$-functions

Abstract: In this paper, we generalize the Quillen-Lichtenbaum Conjecture relating special values of Dedekind zeta functions to algebraic $\mathrm{K}$-groups. The former has been settled by Rost-Voevodsky up to the Iwasawa Main Conjecture. Our generalization extends the scope of this conjecture to Artin $L$-functions of Galois representations of finite, function, and totally real number fields. The statement of this conjecture relates norms of the special values of these $L$-functions to sizes of equivariant algebraic $\mathrm{K}$-groups with coefficients in an equivariant Moore spectrum attached to a Galois representation. We prove this conjecture in many cases, integrally, except up to a possible factor of powers of $2$ in the non-abelian and totally real number field case. In the finite field case, we further determine the group structures of their equivariant algebraic $\mathrm{K}$-groups with coefficients in Galois representations. At heart, our method lifts the M\"obius inversion formula for factorizations of zeta functions as a product of $L$-functions, to the $E_1$-page of an equivariant spectral sequence converging to equivariant algebraic $\mathrm{K}$-groups. Additionally, the spectral Mackey functor structure on equivariant $\mathrm{K}$-theory allows us to incorporate certain ramified extensions that appear in these $L$-functions.