This report summarizes ongoing research and development since our 2012 foundation paper, includin... more This report summarizes ongoing research and development since our 2012 foundation paper, including the emergent effects of a deterministic mechanism for fermion interactions: (1) the coherence of black holes and particles using a quantum chaotic model; (2) wide-scale (anti)matter prevalence from exclusion and weak interaction during the fermion reconstitution process; and (3) red-shift due to variations of vacuum energy density. We provide a context for Standard Model fields, and show how gravitation can be accountably unified in the same mechanism, but not as a unified field.
By assuming that a fermion de-constitutes immediately at source, that its constituents, as bosons... more By assuming that a fermion de-constitutes immediately at source, that its constituents, as bosons, propagate uniformly as scalar vacuum terms with phase (radial) symmetry, and that fermions are unique solutions for specific phase conditions, we find a model that self-quantizes matter from continuous waves, unifying bosons and fermion ontologies in a single basis, in a constitution-invariant process. Vacuum energy has a wavefunction context, as a mass-energy term that enables wave collapse and increases its amplitude, with gravitational field as the gradient of the flux density. Gravitational and charge-based force effects emerge as statistics without special treatment. Confinement, entanglement, vacuum statistics, forces, and wavefunction terms emerge from the model's deterministic foundations.
We define an abstract and absolute phase space for intrinsic sub-quantum wave states, each of thr... more We define an abstract and absolute phase space for intrinsic sub-quantum wave states, each of three axes mapping directly to a duality having fundamental ontological basis. Many aspects of quantum physics emerge from the interaction algebra and a model deduced from principles of ‘unique solvability’ and ‘identifiable entity’, and we reconstruct previously abstract fundamental principles and phenomena from these new foundations. The physical model defines two-part continuous bosonic waves in the APS, and four-part fermions as snapshots of those waves when simple conditions are met. To illustrate the scheme, we provide examples of slit experiments and of QCD, and suggest approaches for other applications.
This report summarizes ongoing research and development since our 2012 foundation paper, includin... more This report summarizes ongoing research and development since our 2012 foundation paper, including the emergent effects of a deterministic mechanism for fermion interactions: (1) the coherence of black holes and particles using a quantum chaotic model; (2) wide-scale (anti)matter prevalence from exclusion and weak interaction during the fermion reconstitution process; and (3) red-shift due to variations of vacuum energy density. We provide a context for Standard Model fields, and show how gravitation can be accountably unified in the same mechanism, but not as a unified field.
By assuming that a fermion de-constitutes immediately at source, that its constituents, as bosons... more By assuming that a fermion de-constitutes immediately at source, that its constituents, as bosons, propagate uniformly as scalar vacuum terms with phase (radial) symmetry, and that fermions are unique solutions for specific phase conditions, we find a model that self-quantizes matter from continuous waves, unifying bosons and fermion ontologies in a single basis, in a constitution-invariant process. Vacuum energy has a wavefunction context, as a mass-energy term that enables wave collapse and increases its amplitude, with gravitational field as the gradient of the flux density. Gravitational and charge-based force effects emerge as statistics without special treatment. Confinement, entanglement, vacuum statistics, forces, and wavefunction terms emerge from the model's deterministic foundations.
We define an abstract and absolute phase space for intrinsic sub-quantum wave states, each of thr... more We define an abstract and absolute phase space for intrinsic sub-quantum wave states, each of three axes mapping directly to a duality having fundamental ontological basis. Many aspects of quantum physics emerge from the interaction algebra and a model deduced from principles of ‘unique solvability’ and ‘identifiable entity’, and we reconstruct previously abstract fundamental principles and phenomena from these new foundations. The physical model defines two-part continuous bosonic waves in the APS, and four-part fermions as snapshots of those waves when simple conditions are met. To illustrate the scheme, we provide examples of slit experiments and of QCD, and suggest approaches for other applications.
Uploads
Papers by John Valentine
Early works by John Valentine