Single-particle resonances in a deformed Dirac equation

Z. P. Li1 J. Meng1234* Y. Zhang1 S. G. Zhou34 and L. N. Savushkin5

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Single-particle resonances in a deformed Dirac equation

机译：变形Dirac方程中的单粒子共振

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Single-particle bound and resonant states are obtained by solving the Dirac equation with quadrupole-deformed Woods-Saxon potential in coordinate space with the coupled-channel approach. Taking the mπ=1/2+ resonant states at deformation β=0.1 as examples, the roles of their spherical components have been investigated based on the behaviors of the eigenphases and the corresponding probabilities weighted by the scalar spherical potential. It is shown that the realization of the mπ=1/2+ resonances is supported mainly by the l≠0 components, and the mixture of the s1/2 component can lead to the disappearance of some resonances at finite energy. The dominance of the l≠0 component (d3/2) in the small-energy region guarantees the continuation of a certain resonance to the corresponding bound state.

机译：通过用耦合通道方法在坐标空间中求解具有四极变形Woods-Saxon势的Dirac方程，可以获得单粒子束缚态和共振态。以变形为β= 0.1时的mπ= 1/2 +共振态为例，基于特征相的行为以及标量球形势加权的相应概率，研究了它们的球形分量的作用。结果表明，mπ= 1/2 +共振的实现主要受l≠0分量的支持，而s1 / 2分量的混合会导致有限能量下某些共振的消失。在小能量区域中l≠0分量（d3 / 2）的优势保证了一定共振持续到对应的结合态。

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《Physical Review C: Nuclear Physics》 |2010年第3期|p.1-6|共6页
作者
Z. P. Li1 J. Meng1234* Y. Zhang1 S. G. Zhou34 and L. N. Savushkin5;
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1State Key Laboratory of Nuclear Physics and Technology, School of Physics, Peking University, Beijing 100871, People’s Republic of China2School of Physics and Nuclear Energy Engineering, Beihang University, Beijing 100191, People’s Republic of China3Institute of Theoretical Physics, Chinese Academy of Science, Beijing 100190, People’s Republic of China4Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Accelerator, Lanzhou 730000, People’s Republic of China5Department of Physics, St. Petersburg University for Telecommunications, RU-191065 St. Petersburg, Russia;

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Single-particle resonances in a deformed Dirac equation

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