Charge topology of the coherent dissociation of relativistic 11C and 12N nuclei

Abstract: The charge topology of coherent-dissociation events is presented for 11 C and 12 N nuclei of energy 1.2 A GeV per nucleon bombarding nuclear track emulsions. This topology is compared

“…[1], [2]]. Virtual cluster configurations in an incident nucleus are completely captured in coherent dissociation in which the target nucleus is not destroyed visibly ("white"stars).…”

“…The contribution of the unbound 8 Be and 9 B nuclei to their structure is determined on the basis of measurements of the emission angles of relativistic He and H fragments.Nuclear track emulsion (NTE) is exposed at the JINR Nuclotron to relativistic nuclei 7,9 Be, 8,10 B, 10,11 C and 12 N for the experimental study of the evolution of the cluster structure of light nuclei [reviewed in ref.[1], [2]]. Virtual cluster configurations in an incident nucleus are completely captured in coherent dissociation in which the target nucleus is not destroyed visibly ("white"stars).…”

⁸Be and⁹B nuclei in dissociation of relativistic¹⁰C and¹¹C nuclei

“…[1], [2]]. Virtual cluster configurations in an incident nucleus are completely captured in coherent dissociation in which the target nucleus is not destroyed visibly ("white"stars).…”

“…The contribution of the unbound 8 Be and 9 B nuclei to their structure is determined on the basis of measurements of the emission angles of relativistic He and H fragments.Nuclear track emulsion (NTE) is exposed at the JINR Nuclotron to relativistic nuclei 7,9 Be, 8,10 B, 10,11 C and 12 N for the experimental study of the evolution of the cluster structure of light nuclei [reviewed in ref.[1], [2]]. Virtual cluster configurations in an incident nucleus are completely captured in coherent dissociation in which the target nucleus is not destroyed visibly ("white"stars).…”

⁸Be and⁹B nuclei in dissociation of relativistic¹⁰C and¹¹C nuclei

“…Virtual nucleon associations (clusters) are the fundamental structural elements of atomic nuclei. Their simplest observable manifestations are the lightest 4,3 He and 3,2 H nuclei, which have no excited states. Superpositions of the lightest clusters and nucleons form subsequent nuclei (including unstable 8 Be and 9 B), which act as constituent clusters themselves.…”

“…The discovery of a considerable contribution of an unstable 9 B nucleus to the structure of a radioactive 10 C nucleus [3] highlighted the importance of in-depth analysis of dissociation 10 B → 2He + H. This analysis is aimed at determining the probabilities of coherent dissociation of a 10 B nucleus involving 8 Be and a 9 B nucleus. The continuation of studies into the 10 В nucleus structure was relevant to interpreting the data on 11 С, where 10 В may serve as a structural element [4].…”

Dissociation of relativistic 10B nuclei in nuclear track emulsion

Emission of d, t,³He andα-particles from¹²C nuclei excited by intermediate energy photons