Nuclear Saturation as a Holographic Bandwidth Limit: The Periodic Table from the Bulk Perspective (MetaTime v39)

Building on the MetaTime “Anchor Conjecture” (v38), where the proton is treated as the 4Dprojection of a stable bulk information-knot protected by radion-mediated entanglement with anaction barrier Seff ≃ ln(τp/tmicro) ≈ 196, we extend the framework to atomic nuclei. We proposethat a nucleus is a bundled cable of holographic anchors: each baryonic anchor is sustained by a5D flux-tube/entanglement-wedge structure whose redundancy is quantified by a Ryu–Takayanagi(RT) area budget. Nuclear binding emerges as an information-compression gain: bundling reducesper-anchor entanglement-area cost, analogous to joint compression of correlated files, producing aneffective saturation of binding energy per nucleon.…