Indirect Study of the 16O+16O Fusion Reaction Toward Stellar Energies by the Trojan Horse Method

Indirect Study of the 16O+16O Fusion Reaction Toward Stellar Energies by the Trojan Horse Method

The 16O+16O fusion reaction is important in terms of the explosive oxygen burning process during late evolution stage of massive stars as well as understanding of the mechanism of low-energy heavy-ion fusion reactions. We aim to determine the excitation function for the most major exit channels, α+2...

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Hauptverfasser: Hayakawa, S, Spitaleri, C, Burtebayev, N, Aimaganbetov, A, Figuera, P, Fisichella, M, Guardo, G L, Igamov, S, Indelicato, I, Kiss, G, Kliczewski, S, La Cognata, M, Lamia, L, Lattuada, M, Piasecki, E, Rapisarda, G G, Romano, S, Sakuta, S B, Siudak, R, Trzcińska, A, Tumino, A, Urkinbayev, A
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Massive stars
Stellar evolution
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Zusammenfassung:The 16O+16O fusion reaction is important in terms of the explosive oxygen burning process during late evolution stage of massive stars as well as understanding of the mechanism of low-energy heavy-ion fusion reactions. We aim to determine the excitation function for the most major exit channels, α+28Si and p+31P, toward stellar energies indirectly by the Trojan Horse Method via the 16O(20Ne, α28Si)α and 16O(20Ne, p31P)α three-body reactions. We report preliminary results involving reaction identification, and determination of the momentum distribution of α-16O intercluster motion in the projectile 20Ne nucleus.
ISSN:2101-6275
2100-014X
DOI:10.1051/epjconf/201611709013