New Measurement of C12+C12 Fusion Reaction at Astrophysical Energies

New Measurement of C12+C12 Fusion Reaction at Astrophysical Energies

Carbon and oxygen burning reactions, in particular, C12+C12 fusion, are important for the understanding and interpretation of the late phases of stellar evolution as well as the ignition and nucleosynthesis in cataclysmic binary systems such as type Ia supernovae and x-ray superbursts. A new measure...

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Veröffentlicht in:Physical review letters 2020-05, Vol.124 (19)
Hauptverfasser: Tan, W P, Boeltzig, A, Dulal, C, deBoer, R J, Frentz, B, Henderson, S, Howard, K B, Kelmar, R, Kolata, J Kolata, Long, J, Macon, K T, Moylan, S, Peaslee, G F, Renaud, M, Seymour, C, Seymour, G, Kolk, B Vande, Wiescher, M, Aguilera, E F, Amador-Valenzuela, P, Lizcano, D, Martinez-Quiroz, E
Format: Artikel
Sprache:eng
Schlagworte:
Astrophysics
Binary stars
Carbon
Nuclear astrophysics
Nuclear fusion
Stellar evolution
Stellar system evolution
Supernovae
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Zusammenfassung:Carbon and oxygen burning reactions, in particular, C12+C12 fusion, are important for the understanding and interpretation of the late phases of stellar evolution as well as the ignition and nucleosynthesis in cataclysmic binary systems such as type Ia supernovae and x-ray superbursts. A new measurement of this reaction has been performed at the University of Notre Dame using particle-γ coincidence techniques with SAND (a silicon detector array) at the high-intensity 5U Pelletron accelerator. New results for C12+C12 fusion at low energies relevant to nuclear astrophysics are reported. They show strong disagreement with a recent measurement using the indirect Trojan Horse method. The impact on the carbon burning process under astrophysical scenarios will be discussed.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.124.192702