试用特洛伊木马方法研究天体核反应9Be(p,α)6Li
Indirect Measurement of 9Be (p,α)6Li Reaction by Means of Trojan Horse Method
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摘要: 为克服低能带电粒子核反应截面直接测量中所遇到的库仑位垒和电子屏蔽效应带来的困难,试用基于准自由反应机制的特洛伊木马方法,在意大利南部国家核物理实验室的15MV串列加速器上,通过^2H(^9Be,α^6Li)n核反应对^9Be(p,α)^6Li在低能区(Ecm=0-1000kev)的裸核反应截面做了间接测量,并将测量结果与直接测量数据进行了比较。The beryllium abundance acts as a key role for understanding the inhomogeneous Big Bang nucleosynthesis. In order to measure the ^9Be(p, α)^6Li bare nucleus cross section and S(E) factor at astrophysical energies, the Trojan Horse Method (THM) can be applied. The main feature of the method is that it allows to extract the energy dependence for the astrophysical S(E) factor of bare nuclei at very low energies without any extrapolation, by measuring the cross section of an appropriate three body process. Thus the ^9Be (p,α)^6Li has been studied by means of the THM applied to the ^2H(^9Be,α^6Li)n at INFN-LNS, Catania, Italy. The two body reaction cross section has been studied in the energy range of Ecm=0-1 000 keV. Preliminary results are discussed and a comparison with direct data is made.
Abstract: The beryllium abundance acts as a key role for understanding the inhomogeneous Big Bang nucleosynthesis. In order to measure the ^9Be(p, α)^6Li bare nucleus cross section and S(E) factor at astrophysical energies, the Trojan Horse Method (THM) can be applied. The main feature of the method is that it allows to extract the energy dependence for the astrophysical S(E) factor of bare nuclei at very low energies without any extrapolation, by measuring the cross section of an appropriate three body process. Thus the ^9Be (p,α)^6Li has been studied by means of the THM applied to the ^2H(^9Be,α^6Li)n at INFN-LNS, Catania, Italy. The two body reaction cross section has been studied in the energy range of Ecm=0-1 000 keV. Preliminary results are discussed and a comparison with direct data is made.