Booth Id:
MATH001
Category:
Mathematics
Year:
2020
Finalist Names:
Chakarov, Dimitar (School: Model High School of Mathematics "Akademik Kiril Popov")
Abstract:
We propose a generalization of Artin's conjecture on primitive roots to the ring Z[i] of Gaussian integers. We conjecture that for a fixed positive integer q, every non-zero Gaussian integer a that is not +1 or -1, generates a cyclic subgroup of the multiplicative group of Z[i]/p of residue index q for infinitely many prime ideals p. In several special cases we reduce it either to the classical Artin's conjecture, or to its extension for near-primitive roots, the Golomb's conjecture. We divide the conjecture into three cases: when a is on the real axis, when a is on the imaginary axis, and when a is on neither axes. We conclude by showing that for every a, we have that the sum of d(a,q) over all positive q equals 1, where d(a,q) is density of the prime ideals p yielding subgroups of index precisely q.