More Radioactive Decays, You Will Pew...

The existence of (\(T^{+}\),\(T^{-}\)) pair within the nucleus sequence,

(...\(p^+\), \(g^+\), [\(T^{+}\), \(T^{-}\)], \(p^+\), \(g^+\), \(T^{+}\)...)

and

(...\(p^+\), \(g^+\), \(T^{+}\), \(T^{-}\), \(g^+\), \(T^+\), \(p^{+}\)...)

also opens up new possibilities when \(T^{-}\) escapes,

(...\(p^+\), \(g^+\), [\(T^{+}\), \(T^{-}\)], \(p^+\), \(g^+\), \(T^{+}\)...)\(\rightarrow\)(...\(p^+\), \(g^+\), \(T^{+}\), \(p^+\), \(g^+\), \(T^{+}\)...)\(+T^{-}\)

and,

(...\(p^+\), \(g^+\), \(T^{+}\), \(T^{-}\), \(g^+\), \(T^+\), \(p^{+}\)...)\(\rightarrow\)(...\(p^+\), \(g^+\), \(2T^{+}\), \(p^+\)...)\(+T^{-}+g^{+}\)

And in an analogous way, the existence of a (\(g^{+}\),\(g^{-}\)) pair within the nucleus sequence,

(...\(p^+\), [\(g^{+}\), \(g^{-}\)], \(T^{+}\), \(p^+\), \(g^+\), ...)

and

(...\(p^+\), \(g^{+}\), \(g^{-}\), \(p^{+}\), \(g^+\), \(T^+\),...)

suggests,

(...\(p^+\), [\(g^{+}\), \(g^{-}\)], \(T^{+}\), \(p^+\), \(g^+\), ...)\(\rightarrow\)(...\(p^+\), \(g^{+}\), \(T^{+}\), \(p^+\), \(g^+\), ...)\(+g^{-}\)

and

(...\(p^+\), \(g^{+}\), \(g^{-}\), \(p^{+}\), \(g^+\), \(T^+\),...)\(\rightarrow\)(...\(p^+\), \(2g^{+}\), \(T^+\),...)\(+g^{-}+p^{+}\)

In all the above four cases, when the remaining nuclei collapse, there is a release of energy.  Have a nice day.