排序方式: 共有57条查询结果,搜索用时 78 毫秒
1.
利用束流能量为116MeV的59Co(35Cl,2p2n)90Mo反应布居90Mo的高自旋态.用10台反康普顿HPGe探测器组成的探测阵列进行γγ符合测量.通过多普勒展宽峰的形状分析测定90Mo高自旋态的寿命.在正宇称衰变系观察到增强的M1跃迁,推断I=13以上是扁椭形变.负宇称高自旋态具有大的B(E2)值,并随自旋增大而起伏变化.正、负宇称态之间的跃迁显示增大的E1跃迁,似有八极关联的可能.但是,90Mo并不处在理论预言的存在八极形变的核区内. 相似文献
2.
3.
The fusion-evaporation reaction ^116Sn (^19F, p3n)^131 Ce at projectile energy of 95 MeV is used to populate high spin states in ^131Ce. The de-exciting γ-rays are detected in γ-γ coincidence measurement with Compton-suppressed BGO-HPGe detectors. Level lifetimes of ^131 Ce were determined by using the Doppler shift attenuation method.The experimental results indicate that collectivity of ^131 Ce is reduced relative to that of ^130Ce and it follows that deformation decreases with increase of the neutron number on the basis of systematic comparison of transition quadrupole moments for the light cerium isotopes. 相似文献
4.
The rotational band built on the i13/2 proton [660,1/2] Nilsson state in ^173Re is proven to be identical to that in ^171Ta.The close similarity of the two bands in ^171Ta and ^173Re suggests that the ^173Re nucleus with the odd proton based on the i13/2 [660,1/2] Nilsson state may be triaxially superdeformed. 相似文献
5.
6.
在中国原子能科学研究院的HI 13串列加速器上通过157Gd(19F,5n)171Ta重离子熔合蒸发反应布居了171Ta的高自旋态,以多普勒移动衰减法的峰形分析法分析了171Tah9/2质子1/2[541]转动带的6条能级的寿命,得到了这6条能级的平均寿命值. The high spin states of~(171)Ta have been populated via heavy ion fusion evaporation reaction~(157)Gd(~(19)F, 5n)~(171)Ta at the HI-13 tandem accelerator in China Institute of Atomic Energy. The lifetimes of the high spin states in~(171)Ta have been measured by using the Doppler Shift Attenuation Method (DSAM). Six levels of its h_(9/2) proton 1/2\ band have been analyzed and their lifetimes have been deduced from the experimental data. 相似文献
7.
8.
利用能量为85—105MeV的16O束流,通过187Re(16O,5n)反应研究了198Bi的高自旋态能级结构.用6台BGO(AC)HPGe探测器和一台用于探测低能γ跃迁的平面探测器进行了γ射线的激发函数、γ-γ—t符合及γ射线的角分布测量.基于这些测量,首次建立了包括26条γ跃迁的198Bi的高自旋能级纲图,确定了一个半寿命为(8.0±3.6)ns,自旋和宇称为15+的同质异能态.基于较重的双奇铋核200—206Bi能级结构的系统性,定性地对198Bi的能级结构进行了解释. 相似文献
9.
10.