Probing Nucleon–Nucleon Correlations in Heavy Ion Transfer Reactions Using Large Solid Angle Magnetic Spectrometers

Corradi, L.; Szilner, S.; Pollarolo, G.; Fioretto, E.; Galtarossa, F.; Mijatović, T.; Gottardo, A.; Sison, Andres Iliana; Jaworski, G.; Marchi, T.; Stefanini, A. M.; Testov, D.; Colucci, G.; Goasduff, A.; Mengoni, D.; Montagnoli, G.; Montanari, D.; Scarlassara, F.; Siciliano, M.; Čolović, P.; Malenica, D. Jelavić; Soić, N.; Vukman, N.; Nurkić, Deni; Gomez, Maria de la Luz Jurado

doi:10.7566/jpscp.32.010043

Cited by 4 publications

(2 citation statements)

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“…More work is needed in order to better understand the role of a transfer of a pair by confronting theory with experiments involving different nuclei. In this respect, valuable insight will be given by the 206 Pb+ 118 Sn system [80,81] recently measured with PRISMA. This is the heaviest (asymmetric) semi-magic system with closed proton and open neutron shells, and well Qvalue matched for neutron transfers.…”

Section: Nucleon-nucleon Correlationsmentioning

confidence: 99%

Multinucleon transfer reactions: a mini-review of recent advances

Mijatović

2022

Front. Phys.

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Multinucleon transfer reactions, characterized by the exchange of many nucleons at energies in the vicinity of the Coulomb barrier, have been extensively used in the last decades to understand the production of neutron-rich nuclei, as well as to study their structure. In this Mini Review, recent results related to the production mechanism of heavy neutron-rich nuclei obtained with stable and radioactive beams will be discussed together with the results concerning the proton transfer channels. Additionally, newest results from a series of experiments carried out to study nucleon-nucleon correlations for closed-shell and superfluid systems employing the large solid angle magnetic spectrometer PRISMA will be summarized.

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Section: Nucleon-nucleon Correlationsmentioning

confidence: 99%

Multinucleon transfer reactions: a mini-review of recent advances

Mijatović

2022

Front. Phys.

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“…Also, MNT reactions using inverse kinematics are investigated there. The recent investigations at PRISMA were successful in the identification of reaction products up to the A ∼ 130 mass region [88][89][90].…”

Section: Experimental Challengesmentioning

confidence: 99%

New studies and a short review of heavy neutron-rich transfer products

et al. 2020

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We present new results on multi-nucleon transfer reactions in low-energy collisions of $$^{48}\hbox {Ca}+{}^{238}\hbox {U}$$ 48 Ca + 238 U measured at the velocity filter SHIP of GSI Helmholtz Centre, where we observed around 90 different nuclides from Tl to Am ($$Z=$$ Z = 81–95). We followed the idea to use uranium targets for the synthesis of neutron-rich MNT products, particularly in the region below lead, which was triggered by model calculations. The $$\gamma $$ γ , $$\alpha $$ α and spontaneous fission activities of the populated nuclides have been analyzed for their identification. The cross-sections of the observed isotopes for elements $$Z = $$ Z = 81–93 as a function of their mass number have been investigated. Excitation energy, total kinetic energy and the influence of nuclear shell effects on the production cross-sections of the observed transfer products have been studied. Also we present a compact review and comparative analysis of various multi-nucleon transfer and fragmentation reactions which are aimed at the synthesis of neutron-rich nuclides along the $$N=126$$ N = 126 shell closure in heavy nuclei.

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