Xenovium

A vision Beyond the Periodic Table

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The Hypothesis

What if a stable or semi-stable superheavy element could exist at Z=164? The Xenovium Project began as a structured hypothesis—not to prove, but to explore. This section introduces Xenovium (Z=164), theoretical assumptions around nuclear structure and stability, and the symbolic logic used to infer potential behavior. We invite readers to consider this element not as fantasy—but as a frontier of inquiry.

The Xenovium Project began not with certainty, but with curiosity — a desire to question whether our understanding of matter might be constrained not by nature itself, but by the limitations of our tools, assumptions, and imagination. As a behavioral psychologist and economist, my role is not to assert scientific conclusions, but to structure bold hypotheses, gather the right minds, and create a platform where visionary exploration can occur. This whitepaper outlines a speculative yet rigorously structured framework to investigate the plausibility of Xenovium (Z=164), a theoretical superheavy element, through symbolic simulation and collaborative inquiry.
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Could a stable or semi-stable superheavy element exist?

Research & Roadmap

The Xenovium Project is structured in three research phases over a period of years.

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Phase 1

Develop AeonCore-X and Internal symbolic tests

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Phase 2

Onboard researchers and test parameter sets

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Phase 3

Publish open datasets and hybrid model variants

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The Platform - AeonCore-X

AeonCore-X is a modular symbolic simulation engine built to model orbital logic, shell layering, decay inference, and metastability assumptions. It does not simulate physics numerically, but rather through structured symbolic rules and inference. Four symbolic modules operate in a feedback loop: NuclearShellMapper, OrbitalPredictor, DecayLogicEngine, and MetaStabilityScanner.

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Are you a researcher, physicist, theorist or visionary investor?

This Project needs your mind.

Prepared by IREDT – Institute for Research, Education, Development and Technology
(Research branch of One Terrene International Group)

This form is intended for academic, institutional researchers and investors requesting access to restricted simulation data, technical appendices, or modeling tools related to the Xenovium Project. 

Completion of this form is the first step in the review and access clearance process.

Applicant Information

Purpose of Access

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Our Policy on Access to Findings:

1. Tiered Access Framework Scientific findings, simulation data, modeling insights, and spin-off technologies are shared according to an access tier system:

  • Tier 1: Public updates and summaries via xenovium.eu and publications
  • Tier 2: Non-confidential technical briefs available upon request
  • Tier 3: Restricted access under NDA, MOU, or academic collaboration agreement
  • Tier 4: Joint research or licensing partners with privileged access to toolkits and prepublication datasets

2. Legal Safeguards All sensitive content, including codebases, simulation outputs, predictive models, and applied use cases, is protected under one or more of the following:

  • Non-Disclosure Agreement (NDA)
  • Memorandum of Understanding (MOU)
  • Joint Intellectual Property Agreement
  • Research Attribution Protocol (RAP)