EPJ Web Conf.
Volume 184, 20189th European Summer School on Experimental Nuclear Astrophysics
|Number of page(s)||8|
|Published online||29 June 2018|
Essentials of the macroscopic-microscopic folded-Yukawa approach and examples of its record in providing nuclear-structure data for simulations
P. Moller Scientific Computing and Graphics, Inc.,
P. O. Box 1440, Los Alamos,
NM 87544, USA
* e-mail: email@example.com
Published online: 29 June 2018
The macroscopic-microscopic model based on the folded-Yukawa singleparticle potential and a “finite-range” macroscopic model is probably the approach that has provided the most reliable predictions of a large number of nuclear-structure properties for all nuclei between the proton and neutron drip lines. I will describe some basic features of the model and the development philosophy that may be the reason for its success. Examples of quantities modeled within the same model framework are, nuclear masses, ground-state level structure, including spins, ground-state shapes, fission barriers, heavy-ion fusion barriers, sub-barrier fusion cross sections, β-decay half-lives and delayed neutron emission probabilities, shape coexistence, and α-decay Qα energies to name a few. I will show how well it predicted various properties measured after published results. Rather than giving an incomplete model description here I will give a timeline of model development and provide references to typical applications and references that are sufficiently complete that several individuals have written computer codes based on these references, codes whose results have excellent agreement with ours.
© The Authors, published by EDP Sciences, 2018
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