Lorentz-invariant Bohmian description of inelastic scattering in QFT
H. Nikolic
TL;DR
This paper develops a Lorentz-invariant Bohmian framework for describing inelastic scattering processes in quantum field theory, incorporating particle creation and destruction with relativistic-covariant trajectories.
Contribution
It introduces a Lorentz-invariant many-time wave function approach to Bohmian mechanics for inelastic QFT scattering processes, addressing relativistic covariance.
Findings
Bohmian trajectories are consistent with relativistic invariance.
The framework effectively describes particle creation and destruction.
It provides a new perspective on inelastic scattering in QFT.
Abstract
The Lorentz-invariant S-matrix elements in interacting quantum field theory (QFT) are used to represent the QFT state by a Lorentz-invariant many-time wave function. Such a wave function can be used to describe inelastic scattering processes (involving particle creation and destruction) by Bohmian particle trajectories satisfying relativistic-covariant equations of motion.
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Taxonomy
TopicsQuantum Mechanics and Applications · Cold Atom Physics and Bose-Einstein Condensates · Noncommutative and Quantum Gravity Theories