Results Calibration Constants Index Review-Facing Seeded constant/readout pages for the Calibration Cascade.
Calibration Constants IndexReview Facing

Calibration Cascade Constants

Seeded constant/readout pages for the Calibration Cascade.

Generated index for the nine seeded Calibration Cascade constant/readout pages.

These detail pages cover the launch set of core cascade readouts. The full Constants Ledger remains available on the Calibration Cascade overview page. Additional constant pages may be added as their registry/TauLib/source mappings are normalized.

These pages do not recompute CODATA 2022 values or change the existing numerical prediction artifact.

Scope label. τ-effective means internal τ-derived or τ-effective construction/readout. Metadata keeps the stable value tau_effective.
L1 · τ-effective Fine-Structure Constant α α = (11/15)^2 ι_τ^4 This page displays the τ-internal alpha readout and comparison route. It does not establish external acceptance. L1 · τ-effective Level 1+ Mass Ratio R1 R1 = ι_τ^-7 - (√3 + π^3α^2)ι_τ^-2 This page displays the source-mapped mass-ratio route that feeds the electron-mass readout. It is not a standalone metrology claim. L2 · τ-effective Electron Mass m_e m_e = m_n/R1 This page displays an anchored SI readout after the neutron mass enters. It does not make the neutron-mass anchor itself a prediction. L1 · τ-effective Gravitational Coupling α_G α_G = α^18√3(1 - (3/π)α) This page displays the dimensionless bridge quantity separately from the SI G readout. L2 · τ-effective Newton Constant G G = (ℏ c / m_n^2) · α_G This page displays the SI G readout only with explicit unit-context guardrails. It does not claim current CODATA recomputation. L2 · τ-effective Planck Mass m_P m_P = sqrt(ℏc/G) This page displays a Planck-mass readout downstream of the G route. It does not make Planck units the calibration anchor. L3 · τ-effective Rydberg Constant R_∞ R_∞ = α^2 m_e c/(2ℏ) This page displays an SI readout route downstream of alpha and electron mass. It does not update external metrology datasets. L3 · τ-effective Bohr Radius a_B a_B = ℏ/(α m_e c) This page uses Bohr radius notation a_B and avoids ambiguous zero-subscript radius notation. L3 · τ-effective Compton Wavelength λ_C λ_C = ℏ/(m_e c) This page displays a downstream SI readout route and preserves source-vintage comparison status.

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