of which there can be three types,
Type I (\(p^+\), \(g^+\), \(T^+\))
Type II (\(g^+\), \(T^+\), \(p^+\))
Type III (\(T^+\), \(p^+\), \(g^+\))
assuming all three types of positive particles are involved. It is possible that only the first or first and second layers of the nucleus exist. In both cases, the nucleus can capture the next awaiting particle and be transmuted to a higher layered nucleus. For example,
(\(p^+\), \(g^+\)) two layered nucleus captures a \(T^{+}\) particle \(\rightarrow\)Type I (\(p^+\), \(g^+\), \(T^+\))
Similarly,
(\(g^+\), \(T^+\)) + \(p^+\) \(\rightarrow\)(\(g^+\), \(T^+\), \(p^+\))
(\(T^+\), \(p^+\)) + \(g^+\) \(\rightarrow\)(\(T^+\), \(p^+\), \(g^+\))
Could this layering go on to four, five and more layers? What about the negative particles?
Science is like an onion; makes you cry, especially if someone else peeled it apart first.
