Все науки. №11, 2023. Международный научный журнал - страница 9
Therefore, in practice, only the most probabilistic ones are left (61).
So, if the moment of formation of new particles is not taken into account, most often cases of the formation of an integral nucleus, the formation of a proton, neutron, electron, positron, deuteron, triton or other similar particles are taken (61). For each of these reactions, the output of the nuclear reaction channel is calculated for all possible enumerated combinations, unlike multidimensional cases and particle formation (62) and for more probabilistic channels of the nuclear reaction (63), along with the threshold of the nuclear reaction channel also for absolutely all cases except the above (64) and more probabilistic channels presented (65).
This is how the corresponding expressions were determined for all the presented channels of the nuclear reaction, it is worth taking the true formula (66), which represents the sum of the products of all the outputs of the channels by a certain number.
Moreover, one of the reaction channels was previously analyzed on a full scale, from which the value of the percentage efficiency of this channel (29) was obtained from the difference of which the required indicator is calculated. The present expression shows that each channel has its own percentage of efficiency, which in total is 100% of the effectiveness of the entire reaction.
From a practical point of view, this can be regarded as a percentage separation of all directed particles, and each of them performs one or another reaction channel in a certain proportion, of course, there is still some percentage attributable to beam scattering on the target, but this is the smallest value, after which all unlikely reactions occur. In addition, it is logical to assume that for cases when the reaction output becomes negative, that is, the channel itself, for which the output was determined – endo-energetically, then the probability of its passage in comparison with positive exa-energy channels becomes practically zero, therefore it is simply not taken into account in the equation.
If, when describing channels, almost all, even more likely channels are endo-energetic, then the channel that is closer to zero will become more likely, that is, for which it is necessary to spend less energy compared to others. Based on (66), it is possible to determine the probability for all reaction channels also relative to the nuclear reaction outputs (67—68) given in (62—63).