# Disintegration of $^{12}$C nuclei by 700–1500 MeV photons

## Abstract

Disintegration of $^{12}$C nuclei by tagged photons of 700–1500 MeV energy at the GRAAL facility has been studied by means of the LAGRAN γ E detector with a wide angular acceptance. The energy and momentum distributions of produced neutrons and protons as well as their multiplicity distributions were measured and compared with corresponding distributions calculated with the RELDIS model based on the intranuclear cascade and Fermi break-up models. It was found that eight fragments are created on average once per about 100 disintegration events, while a complete fragmentation of 12 C into 12 nucleons is observed typically only once per 2000 events. Measured multiplicity distributions of produced fragments are well described by the model. The measured total photoabsorption cross section on 12 C in the same energy range is also reported.

## Abstract

Disintegration of $^{12}$C nuclei by tagged photons of 700–1500 MeV energy at the GRAAL facility has been studied by means of the LAGRAN γ E detector with a wide angular acceptance. The energy and momentum distributions of produced neutrons and protons as well as their multiplicity distributions were measured and compared with corresponding distributions calculated with the RELDIS model based on the intranuclear cascade and Fermi break-up models. It was found that eight fragments are created on average once per about 100 disintegration events, while a complete fragmentation of 12 C into 12 nucleons is observed typically only once per 2000 events. Measured multiplicity distributions of produced fragments are well described by the model. The measured total photoabsorption cross section on 12 C in the same energy range is also reported.

## Statistics

### Citations

1 citation in Web of Science®
2 citations in Scopus®

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Item Type: Journal Article, refereed, original work 07 Faculty of Science > Physics Institute 530 Physics English 2015 18 Feb 2016 09:40 05 Apr 2016 20:05 Elsevier 0375-9474 https://doi.org/10.1016/j.nuclphysa.2015.05.001