: The Self-Referential Fixed Point of the Complex Exponential

Abstract

I was taught that ex = x has no solution, and taught to leave it at that. But in mathematics &#34;no solution&#34; has usually meant &#34;not on this line yet&#34;: x2 = -1 waited for the complex plane, and ex = x turns out to be waiting there too. Over C the exponential has a fixed point = 0.318… + 1.337…\,i, the unique solution of (z) = z in the strip 0 < Im z < π (equivalently -W-1(-1)), and it carries more structure than its one-line definition lets on. At the rectangular and log-polar coordinates of a complex number coincide, forcing the identities Re = || and = Im. As a dynamical point is repelling for and attracting for , linearizable for both by one Koenigs coordinate, and the base of a transpose identity w = w. It generates an aperiodic log-polar lattice and sits a hair off a clean relation with π, namely Re()\,π= 0.99944…. Passing to the octonions, the fixed points of O fill concentric six-spheres, the innermost Re() + Im()\,S6, whose triples obey an exact identity I42 + 14 I52 = Gram carrying one invariant, a twist angle, absent from ordinary spherical trigonometry. Throughout, what is proved is kept apart from what is only computed.