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Break-up mechanisms in the12C(6Li, dα) reaction at 34 MeV incident energy

Механизмы распада в реакции12C(6Li, dα) при энергии падающих частиц 34 МэВ

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Il Nuovo Cimento A (1965-1970)

Summary

Deuteron-alpha angular correlations for the12C(6Li, dα) reaction have been measured atE(6Li)=34 MeV and θ labd =-10°. The analysis of the d-α coincidences has shown the existence of elastic and inelastic break-up mechanisms, depending on whether in the6Li break-up process the residual nucleus is left in the ground or in the excited states. With this definition, the well-known sequential mechanism involving the 3+ state of the6Li nucleus at 2.18 MeV and a direct (nonsequential) mechanism with a maximum at a relative Δθd-α≃30° angle contribute to the elastic break-up process. Two contributions are also, found to the inelastic6Li break-up process: one due to the sequential6Li(3+) mechanism and the other to a nonsequential mechanism. A rough estimation of the ratio of the inelastic to the elastic6Li break-up yields gives about 0.5.

Riassunto

Sono state misurate le correlazioni angolari deutoni-alfa per la reazione12C(6Li, dα) aE(6Li)=34 meV e θ labd =-10°. L'analisi ha mostrato l'esistenza dei meccanismi di break-up elastico e inelastico, a seconda che, nel processo di break-up del6Li, il nucleo è lasciato nello stato fondamentale o in stati eccitati. Con questa definizione, il noto meccanismo sequenziale che coinvolge lo stato 3+ del nucleo di6Li ad una energia di eccitazione di 2.18 MeV e un meccanismo diretto (non sequenziale) con un massimo ad un angolo relativo Δθd-α≃30°, contribuiscono al processo di break-up elastico. Sono stati anche trovati due contributi per il processo di break-up inelastico del6Li: l'uno dovuto al meccanismo sequenziale del6Li(3+) e l'altro dovuto ad un meccanismo non sequenziale. Il rapporto fra la resa del break-up inelastico e quella del break-up elastico è stato stimato essere circa 0.5.

Резюме

Измерены угловые корреляции между дейтоном и альфа-частицей, образованными в реакции12C(6Li, dα) приE(6Li)=34 МэВ и θ labd =-10°. Анализ д-α совпадений показывает существование упругого и неупругого механизмов распада, в зависимости от того в основном или в возбужденном состояниях образуются остаточные ядра. Хорощо известный последовательный механизм распада, включающий 3+ состояние ядра6Li при энергии 2.18 МэВ и прямой (не последовательный) механизм с максимумом при относительном угле Δθd-α≃30° дают вклады в упругий процесс распада. Обнаружены также два вклада в неупругий процесс распада6Li: один обусловлен последовательным механизмом6Li(3+), а другой обусловлен не последовательным механизмом. Грубая оценка отношения неупругого к упругому распаду6Li дает величину около 0.5.

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Authors and Affiliations

  1. Dipartimento di Fisica dell'Università, Corso Italia 57, 95129, Catania

    A. Cunsolo, A. Foti, G. Immè, G. Pappalardo, G. Raciti & F. Rizzo

  2. Istituto Nazionale di Fisica Nucleare, Sezione di Catania, Catania

    A. Cunsolo, A. Foti, G. Immè, G. Pappalardo, G. Raciti & F. Rizzo

  3. Laboratorio Nazionale del Sud, Catania

    A. Cunsolo, A. Foti, G. Immè, G. Pappalardo, G. Raciti & F. Rizzo

  4. Centro Siciliano di Fisica Nucleare e Struttura della Materia, Catania, Italia

    A. Cunsolo, A. Foti, G. Immè, G. Pappalardo, G. Raciti & F. Rizzo

  5. Départment de Physique Nucléaire, CEN Saclay, 91191, Gif-sur-Yvette, France

    N. Saunier

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  1. A. Cunsolo
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Cunsolo, A., Foti, A., Immè, G. et al. Break-up mechanisms in the12C(6Li, dα) reaction at 34 MeV incident energy. Nuov Cim A 85, 343–357 (1985). https://doi.org/10.1007/BF02902743

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