Downloads provided by UsageCountsVariable Dynamic Mode Decomposition for Estimating Time Eigenvalues in Nuclear Systems
Copyright policy ) Smith, Ethan; Variansyah, Ilham; McClarren, Ryan;
Variable Dynamic Mode Decomposition for Estimating Time Eigenvalues in Nuclear Systems
We present a new approach to calculating time eigenvalues of the neutron transport operator (also known as $α$ eigenvalues) by extending the dynamic mode decomposition (DMD) to allow for non-uniform time steps. The new method, called variable dynamic mode decomposition (VDMD), is shown to be accurate when computing eigenvalues for systems that were infeasible with DMD due to a large separation in time scales (such as those that occur in delayed supercritical systems). The $α$ eigenvalues of an infinite medium neutron transport problem with delayed neutrons and consequently having multiple, very different relevant time scales are computed. Furthermore, VDMD is shown to be of similar accuracy to the original DMD approach when computing eigenvalues in other systems where the previously studied DMD approach can be used.
20 pages, 3 tables, 3 figures
- University of Notre Dame United States
FOS: Physical sciences, time eigenvalues, data-driven algorithms, time-dependent neutronics, Computational Physics (physics.comp-ph), Physics - Computational Physics
FOS: Physical sciences, time eigenvalues, data-driven algorithms, time-dependent neutronics, Computational Physics (physics.comp-ph), Physics - Computational Physics
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