Using a folding potential derived from nucleon-nucleon interactions and shell-model wave functions in the cluster model plus the multiple internal reflections method, the work calculates quasibound resonance states and formation probabilities for the 24Mg compound nucleus in 12C + 12C pycnonuclear反应
Dynamics of two-cluster systems in phase space
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abstract
We present a phase-space representation of quantum state vectors for two-cluster systems. Density distributions in the Fock--Bargmann space are constructed for bound and resonance states of $^{6,7}$Li and $^{7,8}$Be, provided that all these nuclei are treated within a microscopic two-cluster model. The density distribution in the phase space is compared with those in the coordinate and momentum representations. Bound states realize themselves in a compact area of the phase space, as also do narrow resonance states. We establish the quantitative boundaries of this region in the phase space for the nuclei under consideration. Quantum trajectories are demonstrated to approach their classical limit with increasing energy.
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Microscopic study of nuclei synthesis in pycnonuclear reaction $^{12}$C + $^{12}$C in neutron stars
Using a folding potential derived from nucleon-nucleon interactions and shell-model wave functions in the cluster model plus the multiple internal reflections method, the work calculates quasibound resonance states and formation probabilities for the 24Mg compound nucleus in 12C + 12C pycnonuclear反应