Comparison of two Galerkin quadrature methods - Texas A&M University (TAMU) Scholar

We compare two methods for generating Galerkin quadrature for problems with highly forward-peaked scattering. In Method 1, the standard Sn method is used to generate the moment-to-discrete matrix and the discrete-to-moment is generated by inverting the moment-to-discrete matrix. In Method 2, which we introduce here, the standard Sn method is used to generate the discrete-to-moment matrix and the moment-to-discrete matrix is generated by inverting the discrete-to-moment matrix. Method 1 has the advantage that it preserves both N eigenvalues and N eigenvectors (in a pointwise sense) of the scattering operator with an N-point quadrature. Method 2 has the advantage that it generates consistent angular moment equations from the corresponding SN equations while preserving N eigenvalues of the scattering operator with an iV-point quadrature. Our computational results indicate that these two methods are quite comparable for the test problem considered.

International Conference on Mathematics and Computational Methods Applied to Nuclear Science and Engineering, M and C 2013

Comparison of two Galerkin quadrature methods Conference Paper