Section B (Task B.1) of the BBH -> waveform pipeline: decompose the Newman-Penrose Weyl scalar psi4 on an extraction sphere into its gauge-invariant spin-weighted spherical-harmonic mode coefficients C_lm.
Section B (Task B.1) of the BBH -> waveform pipeline: decompose the Newman-Penrose Weyl scalar psi4 on an extraction sphere into its gauge-invariant spin-weighted spherical-harmonic mode coefficients C_lm. Specify the mode content of a psi4 field; the plugin reconstructs psi4(theta,phi) = sum c_lm (-2)Y_lm and re-projects it by Gauss-Legendre quadrature (C_lm = integral psi4 conj(-2)Y_lm dOmega), recovering the coefficients exactly to quadrature precision - the analytic self-check of the extraction operator. It reports the GeoNum drift and trust verdict on each projection sum. This is the JS twin of the native Rust operator (wasm/src/bssn/weyl.rs), validated to ~2e-6 against a linearized wave. It validates the DECOMPOSITION math only - not merger-waveform accuracy, which is the engine plus the pending SXS cross-validation (Task B.4).
Open it inside GDBS to save runs to Sandbox, attach results to a Worklog case, or share through a Gate client portal - all in the browser, nothing uploaded to anyone’s cloud.