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A charged hadronic string model within the R.P. Feynman proper time paradigm and vacuum field theory approach
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Journal Article
A charged hadronic string model within the R.P. Feynman proper time paradigm and vacuum field theory approach
2025
Overview
We study a novel charged hadronic string model within the least action principle and the vacuum field theory approach based on the classical R.P. Feynman’s proper time paradigm. It is stated that the hadronic string model allows the conformal local coordinates, with respect to which the resulting string dynamics is described by means of the linear second order elliptic equation under the Dirac type constraint, suitable for the canonical quantization and demonstrating a related gauge type invariance of the model. The related Lagrangian and Hamiltonian aspects of the string model, interacting with ambient both electrical and electromagnetic potential fields, are analyzed in detail.
Publisher
IOP Publishing
Subject
