PANDORA Project for the study of photonuclear reactions below $$A=60$$

Author:

Tamii A.ORCID,Pellegri L.,Söderström P.-A.,Allard D.,Goriely S.,Inakura T.,Khan E.,Kido E.,Kimura M.,Litvinova E.,Nagataki S.,Neumann-Cosel P. von,Pietralla N.,Shimizu N.,Tsoneva N.,Utsuno Y.,Adachi S.,Adsley P.,Bahini A.,Balabanski D.,Baret B.,Bekker J. A. C.,Binda S. D.,Boicu E.,Bracco A.,Brandherm I.,Brezeanu M.,Brummer J. W.,Camera F.,Crespi F. C. L.,Dalal R.,Donaldson L. M.,Fujikawa Y.,Furuno T.,Haoning H.,Higuchi R.,Honda Y.,Gavrilescu A.,Inoue A.,Isaak J.,Jivan H.,Jones P.ORCID,Jongile S.,Just O.,Kawabata T.,Khumalo T.,Kiener J.,Kleemann J.,Kobayashi N.,Koshio Y.,Kuşoğlu A.,Li K. C. W.,Malatji K. L.,Molaeng R. E.,Motoki H.,Murata M.,Netshiya A. A.,Neveling R.ORCID,Niina R.,Okamoto S.,Ota S.,Papst O.,Parizot E.,Petruse T.,Reen M. S.,Ring P.,Sakanashi K.,Sideras-Haddad E.,Siem S.,Spall M.,Suda T.,Sudo T.,Taniguchi Y.,Tatischeff V.,Utsunomiya H.,Wang H.,Werner V.,Wibowo H.,Wiedeking M.,Wieland O.,Xu Y.,Yang Z. H.,

Abstract

AbstractPhotonuclear reactions of light nuclei below a mass of $$A=60$$ A = 60 are planned to be studied experimentally and theoretically with the PANDORA (Photo-Absorption of Nuclei and Decay Observation for Reactions in Astrophysics) project. Two experimental methods, virtual photon excitation by proton scattering and real photo absorption by a high-brilliance $$\gamma $$ γ -ray beam produced by laser Compton scattering, will be applied to measure the photoabsorption cross sections and decay branching ratio of each decay channel as a function of the photon energy. Several nuclear models, e.g. anti-symmetrized molecular dynamics, mean-field and beyond-mean-field models, a large-scale shell model, and ab initio models, will be employed to predict the photonuclear reactions. The uncertainty in the model predictions will be evaluated based on the discrepancies between the model predictions and experimental data. The data and predictions will be implemented in the general reaction calculation code, . The results will be applied to the simulation of the photo-disintegration process of ultra-high-energy cosmic rays in inter-galactic propagation.

Funder

Japan Society for the Promotion of Science

Germanys Excellence Strategy

Ministerul Cercetării şi Inovării

Deutsche Forschungsgemeinschaft

US-NSF Grant

South African Agency for Science and Technology Advancement

the State of Hesse within the Research Cluster ELEMENTS

US-NSF CAREER Grant

Fonds De La Recherche Scientifique - FNRS

RIKEN

LOEWE program

Publisher

Springer Science and Business Media LLC

Subject

Nuclear and High Energy Physics

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