Semantic Holography: Coupling a Semantic Field to AdS₄/CFT₃
Semantic Holography: Coupling a Semantic Field to AdS₄/CFT₃
📝 Description (Abstract + Contact) We propose a Semantic Holography framework by introducing a scalar “semantic field” φₛₑₘ in an AdS₄ bulk, dual to a boundary CFT₃ operator. This novel coupling connects semantic embeddings (e.g. BERT) to gravitational dynamics, enabling entropy shifts via information content. Through analytic derivations and numerical simulations of entanglement entropy corrections ΔSₛₑₘ, we show that even minuscule semantic amplitudes (εₛₑₘ ~ 10⁻⁷) can induce ~0.1 shifts in holographic entanglement. The approach bridges AdS/CFT duality, machine learning, and quantum information. We include: Linear and nonlinear Einstein–Klein–Gordon solver implementations Holographic renormalization with semantic field counterterms Reproducible Python code and all simulation data Experimental feasibility studies (cold-atom lattices & photonic crystals) Contact: PSBigBig (Independent Researcher)📧 hello@onestardao.com📄 All papers: https://onestardao.com/papers
quantum informationt, entanglement entropy, NLP embeddings, machine learning, quantum graviy, photonic crystals, holography, AdS/CFT, semantic perturbation, Semantic field, cold-atom simulation, BERT
quantum informationt, entanglement entropy, NLP embeddings, machine learning, quantum graviy, photonic crystals, holography, AdS/CFT, semantic perturbation, Semantic field, cold-atom simulation, BERT
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