On the initial phenomena occurring in lead/lead collisions at relativistic energies

TL;DR

This paper investigates initial phenomena in lead/lead collisions at relativistic energies, proposing new interpretations of particle charge, inertia, and color based on a novel uncertainty relation involving three-dimensional time.

Contribution

It introduces a new perspective linking the energy-time uncertainty to a three-dimensional time framework, offering fresh insights into particle properties and collision phenomena.

Findings

Confirmation of a new state of nuclear matter with 0.17 yoctosecond lifetime

Observation of transverse momentum as a signature of charge motion in time

Proposed connection between energy-time uncertainty and three-dimensional time

Abstract

A new study of the initial phenomena occurring in the fireball should confirm the predicted creation of a new state of nuclear matter having a lifetime of 0.17 yoctosecond and releasing an energy of 3.87 GeV. The energy-time uncertainty relation might be connected with an up to now unsuspected momentum-position uncertainty relation holding in a three-dimensional time. This new point of view leads to the interpretation of the charge of a particle as being a rotational motion in time, to a new interpretation of inertia, and to a new interpretation of the color of a particle. The transverse momentum observed in the study of the fireball might be the signature of this motion in time of the charge.