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arxiv: 2204.06100 · v1 · pith:KHUG5WTH · submitted 2022-04-12 · nucl-th

Towards a Predictive HFB+QRPA Framework for Deformed Nuclei: Selected Tools and Technique

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classification nucl-th
keywords nuclearcalculationsdeformedframeworknucleipredictiveqrpastates
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Reliable predictions of the static and dynamic properties of a nucleus require a fully microscopic description of both ground and excited states of this complicated many-body quantum system. Predictive calculations are key to understanding such systems and are important ingredients for simulating stellar environments and for enabling a variety of contemporary nuclear applications. Challenges that theory has to address include accounting for nuclear deformation and the ability to describe medium-mass and heavy nuclei. Here, we perform a study of nuclear states in an Hartree-Fock-Bogoliubov (HFB) and Quasiparticle Random Phase Approximation (QRPA) framework that utilizes an axially-symmetric deformed basis. We present some useful techniques for testing the consistency of such calculations and for interpreting the results.

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