A new theoretical work establishes a long - sought - after connection
between nuclear particles and electromagnetic theories.
«I wanted something more difficult, so I started to collaborate with another group of researchers on experiments
about nuclear particle [physics] in space.»
«As already mentioned, there is no stable nucleus with five or eight nuclear particles [nucleons], so it is not possible to build nuclei heavier than helium by adding neutrons or protons to helium (4He) nuclei, or by fusing pairs of helium nuclei.
«Quarks» may be source of quasars» energy — The
mysterious nuclear particles called «quarks,» which have not yet been detected but might nevertheless be basic building blocks of the atom's core, could be the source of the tremendous energy generated by the puzzling star - like objects known as quasars....
In nuclear physics, a nuclear reaction is a process in which two nuclei or
nuclear particles collide, to produce different products than the initial particles.
Contrary to common belief, Einstein knew little about
the nuclear particle physics underlying the bomb.
After whizzing through a first final - year undergraduate project — building electronics for
a nuclear particle physics instrument - he decided to take on another one.
He also found that
the nuclear particle required a spin of zero or one to conserve angular momentum.
They expanded upon it — across energy domains and isotopes — so they could attempt to predict where
the nuclear particles are.
As to the light nuclei — The forces which hold
all nuclear particles together are attractive.
for the aggregate of
all nuclear particles (including protons).