fundamentalconstantbased

Fundamentalconstantbased is a term used to describe approaches that construct theoretical frameworks, measurement systems, and computational models by grounding them in fundamental physical constants rather than arbitrary artifacts or derived units. In practice, it emphasizes expressing quantities as functions of constants such as the speed of light, Planck constant, elementary charge, Boltzmann constant, and other universal quantities, and adopting unit conventions in which these constants take fixed, exact values.

The core idea is to promote naturalized or invariance-based representations that remain stable across different experimental

Applications span metrology, fundamental physics, quantum information, and high-precision computation. In metrology, the 2019 redefinition of

Benefits include improved reproducibility, clearer dimensional analysis, and greater cross-disciplinary consistency. Potential drawbacks involve incomplete knowledge

Notable examples include natural unit systems and the SI redefinition that fixes fundamental constants to define