稳定谷激发重核轴对称破缺的实验信号

E. Grosse, A. Junghans
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引用次数: 0

摘要

越来越多的实验数据表明,在许多已经处于稳定谷的重核中,轴对称已经被打破:以旋转不变量的方式分析多重库仑激发,奇核中的伽马跃迁率和能量,质量预测,巨共振(GR)的分裂,核能级密度的集体增强和麦克斯韦平均中子俘获截面。对于这些实验观测的解释,轴对称破断几乎在所有重核中都出现,正如Hartree-Fock-Bogoliubov (HFB)计算所预测的那样[1];这表明存在核扬-泰勒效应。我们表明,如果在力参数已经固定的情况下从这些计算中获得核变形、半径等的预先信息,则几乎没有参数可以通过单独拟合水平密度或巨共振数据来自由调整。数据分析和解释必须包括零点振荡的量子力学要求,并且必须考虑到静态和动态对称性破缺之间的区别。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental signals for broken axial symmetry in excited heavy nuclei from the valley of stability
An increasing number of experimental data indicates the breaking of axial symmetry in many heavy nuclei already in the valley of stability: Multiple Coulomb excitation analysed in a rotation invariant way, gamma transition rates and energies in odd nuclei, mass predictions, the splitting of Giant Resonances (GR), the collective enhancement of nuclear level densities and Maxwellian averaged neutron capture cross sections. For the interpretation of these experimental observations the axial symmetry breaking shows up in nearly all heavy nuclei as predicted by Hartree-Fock-Bogoliubov (HFB) calculations [1] ; this indicates a nuclear Jahn-Teller effect. We show that nearly no parameters remain free to be adjusted by separate fitting to level density or giant resonance data, if advance information on nuclear deformations, radii etc. are taken from such calculations with the force parameters already fixed. The data analysis and interpretation have to include the quantum mechanical requirement of zero point oscillations and the distinction between static vs. dynamic symmetry breaking has to be regarded.
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