In this paper, a least-squares finite element method with adaptive mesh refinement is used to approximate solutions to the nonscattering, one-dimensional ...

A least-squares finite element method with adaptive mesh refinement is used to approximate solutions to the nonscattering, one-dimensional neutron transport ...

In this paper, a least-squares finite element method with adaptive mesh refinement is used to approximate solutions to the nonscattering, one-dimensional ...

Abstract. The main focus of this paper is the numerical solution of the steady-state, mono- energetic Boltzmann transport equation for neutral particles ...

If the least-squares finite-element method was used to solve the first-order neutron transport equation, it can solve void regions and results in a symmetric ...

A discrete ordinates finite-element method for solving three-dimensional first-order neutron transport equation is proposed using a least-squares variation.

A Least-Squares Finite Element Method for the Linear Boltzmann Equation with Anisotropic Scattering · Adaptive Smoothed Aggregation ($\alpha$SA) Multigrid.

Abstract. A systematic solution approach for the neutron transport equation, based on a least- squares finite-element discretization, is presented.

Oct 22, 2024 · A systematic solution approach for the neutron transport equation, based on a leastsquares finite-element discretization, is presented.

Abstract. A discrete ordinates finite-element method for solving the two-dimensional first-order neutron transport equation is derived using the least-.