Exponential prime sequences

Abstract

Infinite exponential sequences of distinct prime numbers of the form a cnd+b, n≥ 0, are proved to exist for well chosen real constants a>0, b, c>1, d>1, assuming Cramer's conjecture on prime gaps. There is an infinity of such prime sequences. Sequences having the least possible growth rate are of particular interest. This work's focus is on prime sequences with a=1, b ∈ \0,1\, that have the smallest possible constant c given d>1, and sequences with the smallest possible d, given c=2. In particular, we prove the existence of the four infinite exponential prime sequences u0(n)= c0nn, n≥ 1, with c0=2.0073340803..., u1(n)=1+ c1nn, n≥ 0, with c1=2.2679962677..., v0(n)= 2nd0, n≥ 1, with d0=1.5039285240..., and v1(n)=1+ 2nd1, n≥ 0, with d1=1.7355149500....