Artin's Conjecture says that any positive integer, which is not a square, is a primitive root modulo infinitely many primes. Christopher Hooley gave in

- Hooley, Christopher (1967). "
*On Artin's conjecture.*" J. Reine Angew. Math. 225, 209-220.

a proof of this conjecture assuming the Generalized Riemann Hypothesis.

Roger Heath-Brown showed (not using the GRH) in

- Heath-Brown, D.R. (1986). "
*Artin's conjecture for primitive roots.*" Quart. J. Math. Oxford Ser. 37(1), 27-38.

that there are at most two primes for which Artin's Conjecture fails. Nevertheless, it seems to be unknown whether any single specific prime number satisfies the conjecture. In particular, it is unknown if 2 is a primitive root modulo infinitely many primes.

Question:What is known about the multiplicative order of 2 modulo primes?

More specifically, can one prove interesting statements of the form: For infinitely many primes $p$, the multiplicative order of 2 is larger than some expression in terms of $p$ (which goes to infinity as $p \to \infty$)?

I have to say, that I am not an expert on these kind of questions at all. Given the enormous amount of literature on these questions, I tag this as a reference-request.