The 12C+12C reaction rates based on the compound nucleus formation seem to be concordant with the standard rates. The resonant contribution in 12C+12C is also discussed. To put the rates on firm ground, the resonances below Ec.m. = 3 MeV will have to be studied further
The 12C+12C reaction is one of the single most important nuclear reactions in astrophysics. It stron...
The 12C + 12C fusion reaction is one of the most important reactions in the stellar evolution. Due t...
The rate coefficient for the formation of CH by radiative association of C and H was calculated theo...
Abstract. Carbon burning is a crucial process for a number of important astrophysical scenarios. The...
Carbon burning is a crucial process for a number of important astrophysical scenarios. The lowe...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
We have studied the decays of the resonances of 24Mg at excitation energies 1-6 MeV above the 12C+12...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
The carbon burning nuclear reactions 12C(12C, alpha)20Ne, 12C(12C,p)23Na, and 12C(12C,n)23Mg occur d...
The carbon burning nuclear reactions 12C(12C, alpha)20Ne, 12C(12C,p)23Na, and 12C(12C,n)23Mg occur d...
The nuclear reactions C12(C12,α)Ne20, C12(C12,p)Na23, and C12(C12,n)Mg23 are the primary reactions i...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning is a critical phase for nucleosynthesis in massive stars. The conditions for igniting...
The 12C+12C reaction is one of the single most important nuclear reactions in astrophysics. It stron...
The 12C + 12C fusion reaction is one of the most important reactions in the stellar evolution. Due t...
The rate coefficient for the formation of CH by radiative association of C and H was calculated theo...
Abstract. Carbon burning is a crucial process for a number of important astrophysical scenarios. The...
Carbon burning is a crucial process for a number of important astrophysical scenarios. The lowe...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
We have studied the decays of the resonances of 24Mg at excitation energies 1-6 MeV above the 12C+12...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
The carbon burning nuclear reactions 12C(12C, alpha)20Ne, 12C(12C,p)23Na, and 12C(12C,n)23Mg occur d...
The carbon burning nuclear reactions 12C(12C, alpha)20Ne, 12C(12C,p)23Na, and 12C(12C,n)23Mg occur d...
The nuclear reactions C12(C12,α)Ne20, C12(C12,p)Na23, and C12(C12,n)Mg23 are the primary reactions i...
Carbon burning plays a crucial role in stellar evolution, where this reaction is an important route ...
Carbon burning is a critical phase for nucleosynthesis in massive stars. The conditions for igniting...
The 12C+12C reaction is one of the single most important nuclear reactions in astrophysics. It stron...
The 12C + 12C fusion reaction is one of the most important reactions in the stellar evolution. Due t...
The rate coefficient for the formation of CH by radiative association of C and H was calculated theo...
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