-
Full-resolution model reproduces key MSRE flow and neutron data
Full-resolution multiphysics simulation of the Molten Salt Reactor Experiment couples neutronics with thermal-hydraulics to reproduce experimental behavior and reveal three-dimensional flow.
-
Analytic GMIB valuation was faster than Monte Carlo simulation
Framework for valuing guaranteed minimum income benefits in variable annuities using numéraire transformation; achieves 99% computational time reduction versus Monte Carlo simulation.
-
Muon-induced neutron spectra show possible high-multiplicity anomalies in lead
Analysis of muon-induced neutron emission from lead targets reveals systematic deviations from standard power-law modeling, with evidence of structure in high-multiplicity events independent of depth.
-
Structural choices strongly affect CFETR tritium breeding performance
Neutronics modeling of CFETR HCCB blanket demonstrates structural design optimization yields substantial tritium breeding ratio gains; material composition changes show limited benefit.
-
Machine learning and Monte Carlo methods were used to model late eGFR in kidney transplant recipients
Machine learning models combined with Monte Carlo simulation predict late kidney transplant function using tacrolimus pharmacokinetics and clinical parameters.
