奇a核自发裂变的瞬态激发研究

W. Brodzi'nski, J. Skalski
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引用次数: 0

摘要

利用量子隧道的瞬子方法的思想,我们试图获得一种计算奇数中子或奇数质子的原子核的自发裂变率的方法。这个问题的根源在于作为计算裂变概率基础的绝热曲柄近似的失效。回顾了有和没有配对的自洽实例方程,然后将其简化为具有现象学单粒子势和优先配对相互作用的非自洽版本。研究了不配对的类瞬态方程的解及其产生的作用,并沿实际裂变轨迹计算了Woods-Saxon势。将偶偶核中未配对粒子的作用与曲柄作用结合起来,研究了奇a核的裂变阻。假设相邻奇- a和偶-偶核的质量参数相等,该模型表明,冻结K {\pi}构型会导致裂变阻碍因子的大大高估。具有绝热构型的作用大多没有足够的阻碍;阻断核子的瞬态作用纠正了这一点,但还不够。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Instanton-motivated study of spontaneous fission of odd- A nuclei
Using the idea of the instanton approach to quantum tunneling we try to obtain a method of calculating spontaneous fission rates for nuclei with the odd number of neutrons or protons. This problem has its origin in the failure of the adiabatic cranking approximation which serves as the basis in calculations of fission probabilities. Selfconsistent instanton equations, with and without pairing, are reviewed and then simplified to non-selfconsistent versions with phenomenological single-particle potential and seniority pairing interaction. Solutions of instanton-like equations without pairing and actions they produce are studied for the Woods-Saxon potential along realistic fission trajectories. Actions for unpaired particles are combined with cranking actions for even-even cores and fission hindrance for odd-A nuclei is studied in such a hybrid model. With the assumed equal mass parameters for neighbouring odd-A and even-even nuclei, the model shows that freezing the K {\pi} configuration leads to a large overestimate of the fission hindrance factors. Actions with adiabatic configurations mostly show not enough hindrance; instanton-like actions for blocked nucleons correct this, but not sufficiently.
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