Quantum Tachyon Dynamics

TL;DR

This paper develops a quantum field theory for charged tachyons, exploring their potential role in dark matter, gamma ray bursts, and ultra high energy cosmic rays, while analyzing their properties and interactions.

Contribution

It introduces a novel quantum field theory for charged fermionic tachyons, addressing their invariance, causality, and potential astrophysical implications.

Findings

Charged fermionic tachyons could explain dark matter.

Tachyons may account for gamma ray bursts.

High-energy tachyons can travel galactic distances without significant energy loss.

Abstract

It is suggested that charged tachyons of extremely large mass M could not only contribute to the dark matter needed to fit astrophysical observations, but could also provide an explanation for gamma ray bursts and ulta high energy cosmic rays. The present paper defines a quantum field theory of tachyons, particles similar to ordinary leptons, but with momenta larger than energy. The theory is invariant under the full CPT transformation, but separately violates P and T invariance. Micro causality is broken for space-time intervals smaller than 1/M, but is effectively preserved for larger separations. Charged fermionic, rather than charged scalar tachyons are considered in order to minimize the probability of Cerenkov-like radiation by the tachyon, thereby permitting a high energy tachyon to retain its energy over galactic distances. Topics treated include the choice and Schwinger Action Principle variations of an appropriate Lagrangian, spinorial wave functions, relevant Green's functions, a functional description of an S-Matrix and generating functional, and a variety of interesting kinematical processes, including photon emission and reabsorption, and relevant annihilation and scattering effects. A version of Ehrenfest's theorem is developed, in order to provide a foundation for a classical description of charged tachyons in an external electromagnetic field. Applications are then made to three outstanding astrophysical puzzles : dark matter, gamma ray bursts and ultra high energy cosmic rays.