Energy Filament Theory · EFT Full KB
Direct Evidence for Early-Universe "De-Inflation" Horizon Consistency
V33-33.31 · G 判决节 / 审计节 ·
33.31 turns de-inflation language into a large-angle early-universe translation court: only when CMB T/E, μ / y / r-type history, early 21 cm, early BAO, and long–short mode coupling reproduce the same non-dispersive package of phase alignment, rigid translation, and zero-lag co-occurrence under frozen frequency/time anchoring, common-PSF cleaning, environment ranking, and weak-B compatibility can the chapter pass; under V08/V09-compatible translation, de-inflation remains an early-horizon consistency protocol label rather than a standalone verdict on inflation, origin, or canon-core cosmology.
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Keywords: CMB T/E, μ-window, r-type, y-window, 21 cm, BAO, rigid translation, zero-lag co-occurrence, B-modes, common PSF, κ, long–short mode coupling
Section knowledge units
thesis
33.31 refuses to let one famous horizon tension story do all the work. If the EFT alternative is real, early cross-horizon consistency cannot survive as a T-only, E-only, or one-window anecdote. It has to reappear across multiple early-time windows and independent probes as the same class of engineerable fingerprints. That is why the chapter enters compat adjudication as translate. It may preserve one early-horizon consistency ledger, but it may not let de-inflation language become a free-standing verdict on inflation, first cause, or total cosmological ontology.
mechanism
The measurement ledger is multi-window and phase-first. The chapter grades a large-angle phase-consistency index and a rigid-translation index across disjoint sky regions and missions, projects μ / y / r-type amplitudes into early / transitional / late windows to form a three-window fraction cube, and tests 21 cm–CMB zero-lag co-occurrence on matched sky blocks and redshift slices. It also asks whether long–short mode coupling behaves like phase alignment or rigid translation rather than pure amplitude modulation, and whether B-modes stay in an upper-limit or weak-detection regime compatible with the same narrative. Environment proxies such as BAO reconstructions and weak-lensing κ then provide monotonic or platform-style ranking tests.
mechanism
Workflow is frozen and cross-program from the start. After imposing a unified bandpass convention and a common PSF, the chapter builds text-first maps of the phase and translation indices and co-registers CMB, 21 cm, and BAO indicators on shared sky-block and redshift-slice units. Two independent cleaning paths—foreground-first and frequency-domain-first—must both publish leakage, sidelobe, absolute-zero, thermal-regression, and attitude-closure logs. Feed-forward teams issue prediction cards using only environment proxies and masks, measurement teams report fingerprints under at least two cleaning paths and two pixel or mask conventions, and adjudication teams score hits or wrong-way outcomes by sky, band, season, and method family. The resulting card must also close directionally with Chapters 23, 27, and 29.
evidence
Null separation is designed to break every easy substitute. The fingerprint package is downgraded if it flips or rescales with λ², 1/ν, or band-edge and beam conventions, if it follows dust, synchrotron, CO, or free–free templates, or if scan, thermal, or attitude states can reproduce the effect. Reionization and astrophysical heating are treated as explicit late-time impostors rather than background noise. Label permutation, mask rotation, and template scrambling must collapse significance. Only a package that survives these peels can remain in the early-window ledger.
boundary
The pass line is severe and operational. At least two independent pipelines and at least two mission or facility classes must recover non-dispersive phase alignment plus rigid translation, and that package must co-occur at zero lag with 21 cm in matched windows. The μ / y / r-type fractions must show a floor platform consistent with environment proxies, B-modes must remain compatible with the phase-alignment story, prediction-card hit rates must exceed random, and results must remain robust under bandpass, beam, mask, pixel, season, and attitude stratification. The chapter is falsified if dispersion laws, foregrounds, instrument states, or late-time heating explain the result, if the three-window platform collapses, or if held-out sky, band, or season units fail to reproduce.
interface
The terminal sentence is deliberately narrower than the headline rhetoric. Even on a pass, the chapter certifies only that multiple early-time probes can be closed into one non-dispersive large-angle consistency package under frozen rules, three-window ranking, and weak-B compatibility. That result is strong enough to sustain an early-horizon consistency ledger and to feed the next panoramic orientation layer, but not strong enough to settle the inflation debate or to rewrite canon-core cosmology by itself.