The QDL Mass-Occupancy Principle: Compton–de Broglie Clock Closure and Planck-Normalized Mass Structure

The dimensionless quantity Gm^2/hbar c is conventionally recognized as the gravitational self-coupling of a mass m, equivalently the squared Planck-normalized mass. It also admits familiar geometric and temporal forms, including rg/lambdaC and tg omegaC. These identities are standard. This paper does not claim their mathematical discovery. Instead, it proposes a structural reinterpretation within the Quantized Dimensional Ledger (QDL) framework: the gravitational self-coupling admits a natural factorization as a Compton-gravitational occupancy of the Quantized Dimensional Cell. In QDL, the gravitational parameter Gm realizes the distinguished dimensional cell L^3F^2, while the Compton angular frequency omegaC…