Towards a comprehensive 21^st Century Next-Gen Symmetry Adapted Model (SAM) for Nuclear Physics Applications.

In light of the first calculations of coupling and recoupling coefficients for Wigner’s Supermultiplet Symmetry U(4) ⊃ SU_S(2) x SU_T(2) along with a revision of the U(3) ⊃ SO_L(3) methodology, the authors propose to construct a 21^st Century Next-Gen Symmetry Adapted Model (SAM) Code for nuclear structure studies.



Our intention is to establish an Interactive framework for carrying out advanced nuclear structure calculations, exceeding the current limits of the Symmetry Adapted No-Core Shell Model. Additionally, as resources needed for computing the coupling and re-coupling coefficients are significant, once determined they will be stored in a fast recall database for future use.



The objective is to allow subscribers access to this interface for use in their own models. Should subscribers wish to store the output of their creation, provisioning of storage space will be made available for others subject to the results having been published, and a willingness on their part to document their applications as well as to respond to questions from others who may wish to use their results for original research.



The interactive platform will also feature practical functionalities, such as displaying excitation spectra or various transition rates, etc. In turn, the authors pledge to maintain a small workforce to assist and/or even work with the subscribers to enhance the utilization of the platform with the cost of providing such services folded into a rationalized subscription fee.