The Phase Transport \(\Delta\phi\)
\(\Delta\phi\) is the fundamental phase-transfer quantum of the Emerging Oscillating Fabric Universe. The transport unit is called a neutrino. All known neutrino-emitting processes obey this rule, including identity-neutral pair channels through gross-but-zero-net exchange.
The energy associated with adding or removing a single Zeteon — its binding energy — is path- and state-dependent. During a Zeteon exchange, this energy is released into the available emission channels. In two-body limits, such as electron capture, the released energy appears fully as neutrino energy. In higher-body transitions, it is statistically partitioned among multiple products.
Summary
- \(\Delta\phi\) is the fundamental phase-transfer quantum.
- The phase-transport unit is called a neutrino.
- Neutrino-emitting processes carry unresolved phase out of the local Region state.
- The relation \(n_{\nu} = \Delta m_Z^{(+)}\) represents the Zeteon-exchange phase channel.
- Zeteon binding energy is path- and state-dependent.
- In two-body limits, the released exchange energy appears fully as neutrino energy.
- In higher-body transitions, the released energy is partitioned among multiple products.