Energy Filament Theory · EFT Full KB
Slow-Leak Signature in Comet-Tail Plasma After Solar Wind Removal
V33-33.49 · G 判决节 / 审计节 ·
33.49 turns comet-tail plasma into a slow-leak translation court: after a unified timescale, shared bandpass and PSF kernels, explicit neutral-tail / dust-tail demixing, and propagated solar-wind environment removal, residuals in n, V, T, T⊥/T∥, and E / B must recover a low-frequency platform described by B0 and s0 that aligns in direction across IPS, white-light polarization, ion lines, and in situ energy bins, remains nearly non-dispersive, co-occurs at effectively zero lag in the same geometry window, preserves stable channel and line ratios while absolute baselines shift, and follows solar-wind feed-forward cards; under V08/V09-compatible translation, 'slow leak' remains only a comet-tail residual / readout ledger rather than a comet-tail or solar-wind ontology verdict.
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Keywords: B0, s0, Vsw, β, δB/B, CIR, ICME, IPS, CO⁺, H₂O⁺, [O I] 6300 Å, E×B
Section knowledge units
thesis
33.49 begins by refusing a visual temptation. Comet tails naturally show broad low-frequency structure, but that structure is entangled with the solar wind, tail geometry, dust and neutral contamination, deconvolution choices, and alignment rules. The chapter therefore asks a narrower court question: after solar-wind removal and explicit demixing, does one cross-channel low-frequency platform remain that deserves to be scored as a residual object? Under compat adjudication this is a translation court, so 'slow leak' can survive only as a readout-layer label.
mechanism
The measurement package is multi-axis. It extracts B0 and s0 from time-series and spectral views of n, V, T, T⊥/T∥, and E / B; compares direction and rank ordering across IPS, white-light polarization, ion lines, and in situ energy bins; demands zero-lag same-window co-occurrence inside matched geometry windows; registers plateau-like, monotonic, or threshold behavior against solar-wind variables such as Vsw, IMF direction and strength, β, and δB/B; and requires channel, temperature, and line ratios to stay stable while the absolute platform shifts. Particle-level coherent structures may reinforce the case only if they replicate across energy bins and stay E×B-consistent.
mechanism
Execution is intentionally heavy and layered. Remote sensing, radio IPS, and in situ families align to one external timescale with light-travel corrections. Channel definitions, the time grid, the bandpass kernel, and the PSF strategy are frozen before unblinding. Neutral-tail and dust-tail contributions are explicitly regressed out, upstream solar-wind conditions are propagated to the comet and line-of-sight crossing segments, environment templates are subtracted before residual extraction, and coherence is checked from minutes to days. Feed-forward teams generate solar-wind prediction cards, measurement teams stay blinded, and arbitration is done on holdout comets and holdout windows.
evidence
False slow-leak platforms must collapse under destructive controls. Band-edge and inverse-frequency checks attack residual dispersion; tail-axis label permutations and spatial misalignment attack geometric selection; dust and neutral template swaps attack permissive demixing; quiet solar-wind windows attack calibration common modes; time reversal and window-label permutations attack same-window synchrony; and injection–recovery under real PSF and bandpass conditions attacks fabricated platforms. If the same-grade effect survives these nulls, the chapter routes it back to propagation inversion, demixing, or processing ledgers instead of counting it as a valid common term.
boundary
The pass line requires at least two independent pipelines, at least two array or mission classes, at least three observing channels, and multiple comets across multiple apparitions to reproduce a nearly non-dispersive slow platform with zero-lag co-occurrence. Slow-leak strength must follow feed-forward plateau, monotonic, or threshold relations with solar-wind variables and remain robust to PSF, bandpass, demixing, and propagation apertures. The named ledgers that get first refusal are non-closing solar-wind propagation inversion, PSF / bandpass / deconvolution artifacts, and neutral–dust mixing plus spectral-line cross-talk.
interface
So 33.49 closes one comet-tail residual court and nothing more. If B0 and s0 survive cross-channel, cross-array or mission, cross-comet, and holdout pressure while solar-wind prediction cards beat permutations, V33 keeps one comet-tail residual/readout ledger and routes a stricter stripped-platform grammar to 33.50. But slow leak remains protocol-layer only: it does not settle comet-tail ontology, solar-wind ontology, or any new EFT object. If geometry, demixing, propagation, or PSF / bandpass ledgers absorb the effect, the chapter ends with an upper bound and a falsification.