We report the first complete numerical enumeration of Bell-inequality violation across all Fibonacci anyon braiding sequences of length L = 3–12 in two complementary encodings of six anyons. In the two-generator d1b encoding (native four-dimensional fusion space), the optimal sequence at L = 12 reaches |S| = 2. 811 (99. 4% of the Tsirelson bound). In the three-generator encoding (full five-dimensional fusion space), Tsirelson saturation occurs already at L = 8. Bell violation is generic: 64. 6% of sequences violate CHSH under native 5D measurement, 91. 8% under computational-subspace projection. Blocking the cross-bipartition generator σ₃ collapses concurrence to C = 0 exactly — topology acts as a gatekeeper. Sequential braiding produces ACF (1) = +0. 34 at 10. 85σ, a falsifiable prediction absent in standard quantum mechanics. v1. 2: Abstract qualifier added; unused bibitems removed; 'determines' softened to 'governs'; ACF prediction phrasing aligned with TCH. v1. 3: Non-separability framing footnote added in Abstract (after "Bell violation is generic") ; clarifying sentence inserted in Conclusion before companion-paper reference; v1. 3 Note added after. Clarifies that "Bell violation" refers to CHSH values on a Fibonacci fusion space that does not tensor-factorize, constituting a signature of topological non-separability rather than an EPR-type Bell violation. No numerical results or claims of v1. 0/v1. 1/v1. 2 affected; framing language refined for consistency with the companion TCH theoretical framework paper (forthcoming v1. 4).
Berkay Yüksel Sayim (Mon,) studied this question.