• Publications
  • Influence
Geometric Clifford Algebra and Quantum Interpretation of the Proton's Anomalous Magnetic Moment (poster)
The role of the anomalous moment in the geometric algebra of proton topological mass generation suggests that the anomaly is not an intrinsic property of the free space proton, but rather aExpand
  • 10
  • 1
  • PDF
Unmaking the Standard Model: Geometry and Fields
We present a wavefunction comprised of the eight fundamental geometric objects of a minimally complete Pauli algebra of 3D space point, line, plane, and volume elements endowed with electromagneticExpand
Naturalness Begets Naturalness: an Emergent Definition
We offer a model based upon three `assumptions'. The first is geometric, that the vacuum wavefunction is comprised of Euclid's fundamental geometric objects of space - point, line, plane, and volumeExpand
  • 1
  • PDF
Electromagnetic Synthesis of Four Fundamental Forces from Quantized Impedance Networks of Geometric Wavefunction Interactions
Quantum Mechanics is all about wavefunctions and their interactions. If one seeks to understand Quantum Mechanics, then a deep intuitive understanding of wavefunctions and wavefunction collapse wouldExpand
  • 4
  • PDF
On the Relativity and Equivalence Principles in Quantized Gauge Theory Gravity
Ongoing proliferation of interpretations of the formalism of quantum mechanics over the course of nearly a century originates in historical choices of wavefunction, and in particular with assignmentExpand
  • 1
  • PDF
Geometry and Fields: Illuminating the Standard Model from Within
We present a wavefunction comprised of the eight fundamental geometric objects of a minimally complete Pauli algebra of 3D space - point, line, plane, and volume elements - endowed withExpand
  • 6
  • PDF
Validating a Maximally Natural Electromagnetic Model of the Four Forces
We offer a model based upon three `assumptions': The first is geometric, that the vacuum wavefunction is comprised of Euclid's fundamental geometric objects - point, line, plane, and volume elements,Expand
Why Renormalize if You Don’t Have To?
While the notion that it is better to avoid renormalization if one possibly can is an easy sell, the possibility that a naturally finite, confined, and gauge invariant quantum model has come over theExpand
  • 2
  • PDF
Quantum Interpretation of the Proton Anomalous Magnetic Moment
A century’s proliferation of Quantum Interpretations has been driven by an incomplete understanding of the measurement problem, by an incomplete understanding of the unobservable wavefunction and itsExpand
  • 6
  • PDF