User Portlet

Cam Howlett — Independent Theoretical Physicist** *Adelaide, South Australia | @howcam136 | unitivity.research@gmail.com

Cam Howlett is an independent researcher whose self-taught approach to theoretical physics has produced one of the most ambitious unified frameworks attempted outside institutional academia. Leaving formal education at Year 10, Howlett built his scientific intuition through pattern recognition and relentless iteration — skills that ultimately led him to the κ=3.0 framework, a unified physics model derived from an A₂ hexagonal lattice at the Planck scale.

The κ=3.0 framework — published on viXra (2512.0067) and archived on Zenodo (DOI: 10.5281/zenodo.19022053) — derives particle masses, cosmological parameters, and gravitational dynamics from a single external input: the electroweak vacuum expectation value, v_EW = 246.22 GeV. The framework's central constant, κ=3, is shown to be the unique super-attractive fixed point of f(κ) = ½(κ + 9/κ) — meaning nature, in a precise mathematical sense, prefers 3.

Howlett's predictions span particle physics, cosmology, and biological scaling. A pre-registered prediction of a 95 GeV scalar boson was subsequently matched by a 3.1σ ATLAS+CMS excess. A 116.07 GeV scalar is the subject of an active LHC Run 3 kill test with a July 2026 deadline, and a 9.1193 GeV resonance prediction at Belle II awaits ICHEP 2026. Independent peer-reviewed support for the framework's emergent-quantisation principle appeared in Physical Review Research (White et al., March 2026).

The framework is supported by the open-source Kappa Singularity Engine (GitHub: github.com/CHowlett/kappa3-framework), a validated Python package with 40/40 passing tests.

Howlett works in close collaboration with his wife Kirsty, whose support is acknowledged throughout the published work.