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Microsopic nuclear level densities by the shell model Monte Carlo method

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arxiv 1601.00118 v1 pith:NHXPEASC submitted 2016-01-01 nucl-th

Microsopic nuclear level densities by the shell model Monte Carlo method

classification nucl-th
keywords modeldensitieslevelshellmethodapproachcalculationcarlo
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The configuration-interaction shell model approach provides an attractive framework for the calculation of nuclear level densities in the presence of correlations, but the large dimensionality of the model space has hindered its application in mid-mass and heavy nuclei. The shell model Monte Carlo (SMMC) method permits calculations in model spaces that are many orders of magnitude larger than spaces that can be treated by conventional diagonalization methods. We discuss recent progress in the SMMC approach to level densities, and in particular the calculation of level densities in heavy nuclei. We calculate the distribution of the axial quadrupole operator in the laboratory frame at finite temperature and demonstrate that it is a model-independent signature of deformation in the rotational invariant framework of the shell model. We propose a method to use these distributions for calculating level densities as a function of intrinsic deformation.

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