Same framework, applied to Particle Physics
The framework's value lies in its universality across disparate domains. The brake operator \(\mathcal{B}\), dispersion \(\mathcal{S}\), consensus \(\mathcal{M}\), spectral primitive \(\mathcal{P}\), anti-shadow detector \(\mathfrak{A}\), and scope-reporter \(\mathscr{A}\) — together with Theorems 1–13 — are applied here exactly as on every other domain. Source code: github.com/senuamedia/uniformity. No per-domain calibration. No imported threshold. No bespoke fit.
Cross-domain catalogue — \(\beta\)-strip
This domain's primitive is bump-hunt over invariant-mass spectra rather than the brake operator \(\mathcal{B}\). The cross-domain catalogue below shows brake-exponent readings from the other domains — the same framework, the same code, different operator.
Click any point for the full reading: instance, domain, \(\beta\) value, and a link to the source code.
What the framework provides for particle physics
Resonance hunting in invariant-mass spectra has a well-matched domain primitive: bump-hunt on a smooth-fit background. The framework's contribution is a generic, model-agnostic bump-hunt that uses the same operators as every other framework analysis — recovering the Z boson and the Higgs region in CMS open data with no particle-physics priors and no parametric Higgs model.
Headline results (catalogue instance 2)
- Z boson peak at \(m \approx 92\) GeV, +8.6σ
- Higgs region peak at \(m \approx 125\)–130 GeV, +2.6σ
- Dataset: 278 candidate H→ZZ*→4ℓ events from CMS Open Data Record 5200 (2011, 2012)
Experiments
Scripts: domains/particle-physics/experiments/ (4 scripts).
Primary experiment: cms_higgs_test.py.
Framework reading
The framework's bump-hunt finds the Higgs in real CMS discovery data. Theorem 1 reading: localised brake near each resonance — the cascade returns to baseline in finite spectrum-distance. Per Law V (Theorem 12 \(\mathscr{A}\)), the framework reports operative scope: at \(\sim 22\) bins, cascade-style probes (wavelet derivative, PELT, EMD) do not improve sideband-exponential bump-hunt; the framework's named bump-hunt primitive is the operative one.