Ig Particle Theory

A First-Cause Framework for Unified Physics

Restoring causal explanation from the smallest physical structures to the largest cosmic systems.

Explore the Theory Research Program Research Library

Why Ig Particle Theory?

Ig Particle Theory begins with a distinction between describing physical behavior and explaining why that behavior is causally necessary.

Observation

Modern physics describes physical behavior with extraordinary mathematical precision.

The Gap

Description alone does not necessarily explain the causal mechanisms that produce what is observed.

First Cause

Ig Particle Theory seeks to derive physical behavior from underlying causal structure rather than observation alone.

The Theory

Ig Particle Theory proposes that physical behavior can be understood through causal structure, containment, renewal, and field interaction rather than through observation-level description alone.

Unification

Unified Physics

A single causal framework is used to examine gravity, electromagnetism, matter, light, and large-scale cosmic behavior.

Structure

Emergent Space

Space is treated as emergent from physical structure rather than as a fundamental container in which physics occurs.

Mechanism

Containment Dynamics

Matter and mass-energy behavior are explained through containment, decay, renewal, and replacement processes.

Scale

Scale-Free Causality

The same causal principles are explored from nucleonic-scale structure to planetary, stellar, and cosmic systems.

Research Program

Ig Particle Theory is being developed as an active research program across foundational physics, cosmology, atmospheric behavior, field structure, scientific transparency, and public-facing physics education.

Foundations

Foundations of Physics

Core work on matter, containment, energy, field behavior, emergent space, and the causal basis of physical continuity.

Cosmology

Cosmology & Dark Stars

First-cause examination of black-hole alternatives, singularity replacement, Dark Stars, cosmic structure, and infinity.

Atmosphere

Atmospheric First-Cause Physics

Development of a causal framework for planetary atmosphere, clouds, storms, weather behavior, and atmospheric structure.

Ignonic

Ignonic Mechanics

Formal development of Ignons as causal excitation units within structured field behavior.

Fields

Unified Field Structure

Research into ψ–ω field behavior, electromagnetic response, light propagation, and structured excitation.

Process

Scientific Transparency

Public-facing work on the difference between observation, theory, inference, model artifact, and causal explanation.

Research Library

The Research Library organizes Ig Particle Theory papers, white papers, responses, and presentations by subject category. As the work expands, this section will serve as the central index for public review and scientific discussion.

Foundational

Foundational Papers

Papers that establish or clarify major elements of the Ig Particle Theory framework.

View Foundational Papers

Domain Research

Research Papers

Domain-specific investigations applying Ig Particle Theory to physical systems and observed phenomena.

View Research Papers

Technical Position

White Papers

Formal research statements, technical proposals, and structured explanations of IgPT applications.

View White Papers

Public Discussion

Responses & Commentary

Public-facing responses, scientific commentary, and discussion pieces concerning first-cause inquiry.

View Responses & Commentary

Briefings

Presentations

Slide decks, briefings, visual summaries, and public-facing explanatory materials.

View Presentations

Books

These books present the development of Ig Particle Theory as a first-cause framework for physical explanation. More volumes are in development.

Foundational Book

Ig Particle Theory: A Unified Theory of Physics

The original presentation of Ig Particle Theory, introducing a unified first-cause approach to physical behavior.

View on Amazon

Core Development

Ig Particle Theory: Core Foundations

A deeper development of the conceptual, causal, and structural foundations of Ig Particle Theory.

View on Amazon

The Intersections Series

The Intersections Series explores the implications of Ig Particle Theory across cosmology, philosophy, scientific history, ancient intuition, and the restoration of causal physics.

Volume 1

Ig Particle Theory: The End of Infinity

A re-examination of black holes, cosmology, singularities, and the concept of infinity through first-cause physics.

View on Amazon

Volume 2

Ig Particle Theory: The Continuum

Ancient Intuitions and the Restoration of Causal Physics

An exploration of ancient causal intuitions, modern physics, philosophy, and the restoration of causal explanation.

View on Amazon

Contact

For research inquiries, media inquiries, speaking requests, or correspondence regarding Ig Particle Theory, use the contact information below.

Email: info@michaelhannigan.com

LinkedIn: Add LinkedIn profile link