On antimatter interaction with matter
Sven Gelbhaar
05/15/2018
Matter-antimatter collision results in heavier element(s) depending on how many
electrons you start out with and retain through the merger. positrons would
attach to electrons. Sheer # of extant electrons (vs positrons) biases these
interactions to result in matter (vs antimatter configurations).
if a positively charged nucleus merges with a negatively one, this would create
a combination which appear (macroscopically) to be Helium or higher. This is no
different than when electrons glue themselves onto protons and vice versa; the
only difference is the scope/size of the particles involved. No gamma ray
emissions occur when the former happens, so why should the latter be any
different. However, this merits further investigation to see which nuclei are
comprised of regular matter or some other combination of constituents (namely:
antimatter)
Substance (matter&/||antimatter) remains conserved.
PS (05/17/2018):
This merging (of matter & antimatter) will undoubtedly release a portion of the
electrons and positrons which have accumulated on the protons and, respectively,
antiprotons, resulting in what we consider ‘gamma radiation.’