What question did this study set out to answer?

The aim is to isolate and present the Planck energy identity, E_P = m_P c^2 = ħ / t_P, within the Quantum Lattice Model.

March 27, 2026Open Access

The Planck Energy Identity in the Quantum Lattice Model

Key Points

The aim is to isolate and present the Planck energy identity, E_P = m_P c^2 = ħ / t_P, within the Quantum Lattice Model.
Isolated identity E_P = m_P c^2 = ħ / t_P within the Quantum Lattice Model.
Showed derivation based on covariant phase-flow relation.
Presented a minimal form without full framework development.
The identity establishes Planck energy from a proper-time tick rather than dimensional constants.
Recovers conventional expression E_P = sqrt(ħ c^5 / G) as an equivalent derived form.
Demonstrated closure of Planck energy and mass to a single reduced-action throughput per Planck time.

Abstract

This work isolates the identity EP = mP c² = ħ / tP within the Quantum Lattice Model (QLM) and presents it as a standalone result. In this framework, Planck energy arises directly from the covariant phase–flow relation E = ħ dθ/dτ under a saturated proper-time tick, rather than from a primitive dimensional combination of ħ, G, c. The conventional expression EP = sqrt (ħ c⁵ / G) is recovered as an algebraically equivalent derived form. The derivation shows that Planck energy, Planck mass, and the relativistic energy–mass relation close exactly to a single primitive reduced-action throughput per Planck time. The result is presented in a minimal form, without requiring the full development of the broader framework. The identity is situated within the Quantum Lattice Model, where it arises as part of a larger reduced-action lattice structure built from the primitive set ħ, ℓP, tP.

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Cite This Study

Quinton R. D. Tharp (Tue,) studied this question.

synapsesocial.com/papers/69c6204c15a0a509bde18c5e https://doi.org/https://doi.org/10.5281/zenodo.19212028

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