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Shape of 13C studied by the real-time evolution method

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arxiv 2012.14055 v1 pith:YVVZSI7L submitted 2020-12-28 nucl-th nucl-ex

Shape of 13C studied by the real-time evolution method

classification nucl-th nucl-ex
keywords shapesymmetrymethodmodelnucleartriangularalphaassumption
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Background : Recently, Bijker et al. [Phys. Rev. Lett. 122, 162501 (2019)] explained the rotation-vibration spectrum of 13C by assuming triangular nuclear shape with D'3h symmetry. Purpose : The purpose of this work is to test the shape and symmetry of 13C based on a microscopic nuclear model without assumption of nuclear shape. Method : We have applied the real-time evolution method to 13C. By using the equation-of-motion of clusters, the model describes the 3alpha+n system without any assumption of symmetry. Results : REM described the low-lying states more accurately than the previous cluster model studies. The analysis of the wave functions showed that the ground band has approximate triangular symmetry, while the excited bands deviate from it. Conclusion : This work confirmed that the ground band has the intrinsic structure with the triangular arrangement of three alpha particles.

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