摘要: 原子核的形状演化效应是核结构研究的重要基础问题之一。通常认为，A=160质量区的奇A核位于大形变核区域，它们的激发态能谱将呈现出典型的转动激发特征。然而，基于E-GOS曲线方法，发现随着角动量的增加，该质量区奇A核的晕带具有显著地从转动激发演化成为振动激发的形状演化现象。此外，为深入理解原子核形状演化的微观机制，采用Total-Routhian-Surface（TRS）方法针对稀土区的奇A核进行了理论计算，结果表明，¹⁶⁵Yb和¹⁵⁷Dy同位素在低激发态时具有稳定的长椭形变，当角动量大于0.50 MeV后，核芯的四极形变显著减小并开始产生三轴形变。


The phase transition of nuclei with increasing angular momentum (or spin) and excitation energy is one of the most fundamental topics of nuclear structure research. The odd-N nuclei with A ≈160 are widely considered belonging to the well-deformed region, and their excitation spectra are energetically favored to exhibit the rotational characteristics. In this work, however, the evidence suggesting that the nuclei changes from rotation to vibration along the yrast lines as a function of spin was found. The simple method, named as E-Gamma Over Spin (E-GOS) curves, would be used to discern the evolution from rotational to vibrational structure in nuclei for various spin ranges. Meanwhile, in order to understand the band structure properties of nuclei, theoretical calculations have been performed for the yrast bands of the odd-A rare-earth nuclei within the framework of the total routhian surface (TRS) model. The TRS plots predict that the ¹⁶⁵Yb and ¹⁵⁷Dy isotopes have large quadrupole shapes at low spin states. At higher rotational frequency (hω~ >0.50 MeV), a clear reduction of the quadrupole deformation is indicated by the present results, and the isotopes become rigid in the γ deformation.