A pragmatic approach to formal fundamental physics
Daniel Friedan
TL;DR
This paper proposes a minimal formal structure for fundamental physics, reviewing a mechanism that could produce non-canonical phenomena in SU(2) and SU(3) gauge theories, with potential testable predictions involving vacuum condensates.
Contribution
It introduces a pragmatic formal framework for fundamental physics and discusses a mechanism that yields non-canonical phenomena in gauge theories, offering testable predictions.
Findings
Potential vacuum condensate of SU(2) gauge fields linked to Yang-Mills flow
Mechanism producing non-canonical phenomena in SU(2) and SU(3) theories
Testable conditional predictions arising from the proposed structure
Abstract
A minimal practical formal structure for a fundamental theory is suggested. A mechanism that produces such a structure is reviewed. The proposed mechanism has possibilities of producing non-canonical phenomena in SU(2) and SU(3) quantum gauge theories. These might provide testable conditional predictions. One possibility is a vacuum condensate of SU(2) gauge fields associated to certain trajectories of the SU(2) Yang-Mills flow. Contents 1 Formal fundamental physics 1.1 Against Quantum Gravity 1.2 Against mathematical idealizations 2 A minimal practical formal structure 2.1 An effective QFT for distances > L and an effective S-matrix for distances < L, for observers at every scale L >> l_P 2.2 QFT renormalization group operates from smaller distance L to larger; S-matrix renormalization group operates from larger L to smaller 2.3 An S-matrix does not imply a hamiltonian…
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Taxonomy
TopicsQuantum Mechanics and Applications