Core Research in the Field of Spectral Emergence

The vision for ⟨ E | Theory ⟩ is to provide foundational theoretical research in the field of Spectral Emergence’ where the spectral characteristics of universal energy fields give rise to spacetime, quantum evolution, relativistic effects, gravity, and cosmological phenomena."

Spectral Emergence is the study of how our observable universe unfolds from the energy dynamics and spectral distributions of a universal scalar energy field. Where everything—from the spacetime manifold and the quantum behavior of matter, to relativistic effects and even geometry itself—unfolds from the spectral characteristics of this field. 

In Spectral Emergence, energy comes first. Energy exists prior to and independent of spacetime, serving as the fundamental reality from which our observable universe unfolds.

This energy-first perspective opens entirely new avenues of research:

  • Hamiltonian Relativity - Where the Hamiltonian becomes the fundamental operator defining both quantum evolution and spacetime geometry.

  • Quantum-Relativistic Unification - Revealing quantum mechanics and relativity as manifestations of the same underlying energy dynamics.

  • Spectral Geometry & General Relativity - Where spacetime curvature and gravitational effects arise from the spectral characteristics of the universal energy field.

  • Quantum Gravity via Spectral Methods - Unifying gravitational phenomena with quantum behavior through shared energy foundations.

  • Mathematical Foundations of Spectral Physics - Developing the mathematical tools needed to work within a framework where energy defines reality.



Michael Lee
Chief Scientist
Metallic AI