Neutron as parent of atomic matter
In the tau-picture, beta-decay is not destruction of a neutron but differentiation of the calibration anchor into its component spectral modes: proton (weak-polarized neutron, p = n + delta_A), electron (spectral residual m_e = m_n/R), and antineutrino (base-mode time-eigenstate)
What this page is
This is a public Results-lane surface for a noteworthy Physics Registry item. It is generated from the Corpus Registry triage catalogue and keeps the generic Result catalogue unchanged.
Registry evidence
- Registry item: IV.R121
- Type: remark
- Scope: tau-effective
- Lean status: formalized
- Book / part / chapter: Book IV · Part 6 · Chapter 47
Result summary
In the tau-picture, beta-decay is not destruction of a neutron but differentiation of the calibration anchor into its component spectral modes: proton (weak-polarized neutron, p = n + delta_A), electron (spectral residual m_e = m_n/R), and antineutrino (base-mode time-eigenstate); the neutron is the parent of all atomic matter.
Related Results surfaces
- Nuclei and nuclear astrophysics
- Proton-Neutron Mass Difference at +33 ppm
- Proton–Neutron Mass Splitting
- Proton-Neutron Mass Difference at +33 ppm
- Proton Stability: Address Irresolvability Forbids Baryon Decay
Reading role
Use as Registry evidence for an existing Results surface.
Claim boundary
This page reports a Registry-backed internal result surface. It is not an external validation claim, a scientific consensus claim, or independent acceptance.
Curation rationale
- physics-facing terms: electron, matter, neutron, proton, spectral
- result-facing terms: calibration
- candidate is better handled as evidence for an inferred existing public surface
Review notes
- No additional review notes recorded.