The De Giuseppe Theorem: Formalized Microscopic and Macroscopic Entanglement This manuscript is current in Official Peer Review. Not final version.Copyright©2026 Alex De Giuseppe.All rights reserved. This work is protected by copyright. Any form of plagiarism, unauthorized reproduction, or misappropriation of ideas, mathematically results, or text without proper citation constitutes a violation of academic and intellectual property standards and common laws. No commercial use, adaptation, or derivative works are permitted without explicit written permission from the author. For correspondence, citations, collaboration inquiries, or feedback please contact:degiuseppealex@gmail.com The hash files that determine ownership have been created The last attached file provides a comprehensive summary of the De Giuseppe Theorem and its formalization of macroscopic and microscopic entanglement via matrioska layers. Title: The De Giuseppe Theorem: Macroscopic and Microscopic Entanglement via Informational and Configurational Layers Abstract The De Giuseppe Theorem presents a rigorous framework for generating macroscopic and microscopic entanglement purely through informational and configurational constraints, without requiring motion, velocity, or energy input. The key idea is that systems can be prepared in hierarchical layers, called matrioskas, which encode the necessary conditions for emergent correlations: (ΔC) – Geometrical Configuration: Defines spatial position, orientation, and alignment of the objects. (ΔM) – Material Microstate Coherence: Ensures internal stability, isolation, and reproducibility of microstates. (ΔL) – Informational Correlations: Encodes logical or pre-existing quantum-like correlations linking objects. A function (f) formalizes whether the prepared objects exhibit entanglement or informational loops. When (f = 1), a correlation emerges, linking objects instantaneously at the level of information. This model extends the concept of entanglement to macroscopic objects, showing that pre-encoded information and precise configuration alone are sufficient to produce measurable correlations. This discovery unifies emergent retrocausality, time-like loops, and quantum-like entanglement into a single predictive framework. It also opens the way for reproducible experimental exploration of information-based correlations in tangible systems, offering a novel route to macroscopic entanglement. Other my works: https://zenodo.org/records/18306180 (Predictive Model of Events and Reality) https://zenodo.org/records/18274505 (The Original De Giuseppe Paradox Theory, with popperian experiments and formalized Macroscopic Retrocausality) https://zenodo.org/records/18277631( The First Mathematically Theory of Consciousness) https://zenodo.org/records/18278648(Mathematical formalization of Paranormal Phenomena) https://zenodo.org/records/18306835(Time Travel Research Model)