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.