51- antiprotons


Hydrogen atom and proton


Neutron decay

Atomic energy system

Entanglement in an atom

Nucleon mass size due to entanglement and gravitational gradient strength

Developing an equation - to describe nucleon size due to gravitational gradient and entanglement

Effect of temperature limits on atomic particle mass size

Photon interacts with orbital e-+/ e+- particle

Atomic nucleus - 3-D unidirectional energy component


Bosons versus fermions


Antiproton structure

An antiproton consists of a higher energy level structure than a proton, with its 3-D unidirectional (electric) energy moving from a lower energy level to a higher energy level (higher energy density) at system center.  As a result, antiprotons only exist as entangled particles in which they are directionally balanced by their entangled partner(s).

Protons and atomic nuclei possess the same 3-D electromagnetic (e-m) directionality, or lower energy level structure, with their 3-D unidirectional energy moving outward toward a lower energy level (like a river flowing downhill). Keep in mind that the "charge" directionality of a proton (or an ion) is due to one of its constituent particles with a positive charge.


See illustration below. Click here for enlargement.


51- antiproton structure


To explore traditional views on properties of antiprotons, see "Antiproton" on Wikipedia.