Yu-Hong Ran scite author profile

The space fractional coupled nonlinear Schrödinger (CNLS) equations are discretized by an implicit conservative difference scheme with the fractional centered difference formula, which is unconditionally stable. The coefficient matrix of the discretized linear system is equal to the sum of a complex scaled identity matrix which can be written as the imaginary unit times the identity matrix and a symmetric Toeplitz-plusdiagonal matrix. In this paper, we present new preconditioners based on Hermitian and skew-Hermitian splitting (HSS) for such Toeplitz-like matrix. Theoretically, we show that all the eigenvalues of the resulting preconditioned matrices lie in the interior of the disk of radius 1 centered at the point (1,0). Thus Krylov subspace methods with the proposed preconditioners converge very fast. Numerical examples are given to illustrate the effectiveness of the proposed preconditioners.

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Uniqueness and numerical scheme for the Robin coefficient identification of the time-fractional diffusion equation

Wang

Ran

Yuan

2018

Computers & Mathematics with Applications

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On partially inexact HSS iteration methods for the complex symmetric linear systems in space fractional CNLS equations

Ran

Wang

2017

Journal of Computational and Applied Mathematics

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Yu-Hong Ran

An iterative method for an inverse source problem of time-fractional diffusion equation

On HSS-like iteration method for the space fractional coupled nonlinear Schrödinger equations

On Preconditioners Based on HSS for the Space Fractional CNLS Equations

Uniqueness and numerical scheme for the Robin coefficient identification of the time-fractional diffusion equation

On partially inexact HSS iteration methods for the complex symmetric linear systems in space fractional CNLS equations

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