A spatially sixth-order hybrid $L1$-CCD method for solving time fractional Schrödinger equations.

Autor:	Zhang, Chun-Hua
Další autoři:	Jin, Jun-Wei Sun, Hai-Wei Sheng, Qin
Jazyk:	angličtina
Předmět:	Schrödingerova rovnice linearizace Schrödinger equation linearization články journal articles $L1$ formula nonlinear time fractional Schrödinger equations unconditional stability hybrid compact difference method
Druh dokumentu:	Non-fiction
ISSN:	0862-7940
Abstrakt:	Abstract: We consider highly accurate schemes for nonlinear time fractional Schrödinger equations (NTFSEs). While an $L1$ strategy is employed for approximating the Caputo fractional derivative in the temporal direction, compact CCD finite difference approaches are incorporated in the space. A highly effective hybrid $L1$-CCD method is implemented successfully. The accuracy of this linearized scheme is order six in space, and order $2-\gamma$ in time, where $0<\gamma<1$ is the order of the Caputo fractional derivative involved. It is proved rigorously that the hybrid numerical method accomplished is unconditionally stable in the Fourier sense. Numerical experiments are carried out with typical testing problems to validate the effectiveness of the new algorithms.
Databáze:	Katalog Knihovny AV ČR
Externí odkaz:	Plný text Full text from SpringerLink