An Efficient Numerical Method for the Solution of the Schrodinger Equation

被引:28
作者
Zhang, Licheng [1 ]
Simos, Theodore E. [2 ,3 ]
机构
[1] Changan Univ, Sch Informat Engn, Xian 710064, Peoples R China
[2] King Saud Univ, Dept Math, Coll Sci, POB 2455, Riyadh 11451, Saudi Arabia
[3] Univ Peloponnese, Fac Econ, Dept Informat & Telecommun, Sci Computat Lab, Tripolis 22100, Greece
来源
ADVANCES IN MATHEMATICAL PHYSICS | 2016年 / 2016卷
关键词
VANISHED PHASE-LAG; TRIGONOMETRICALLY-FITTED METHODS; PREDICTOR-CORRECTOR METHOD; SYMMETRIC 2-STEP METHOD; INITIAL-VALUE PROBLEMS; KUTTA-NYSTROM METHOD; P-STABLE METHOD; MULTISTEP METHODS; HIGH-ORDER; 4TH DERIVATIVES;
D O I
10.1155/2016/8181927
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
The development of a new five-stage symmetric two-step fourteenth-algebraic order method with vanished phase-lag and its first, second, and third derivatives is presented in this paper for the first time in the literature. More specifically we will study (1) the development of the new method, (2) the determination of the local truncation error (LTE) of the new method, (3) the local truncation error analysis which will be based on test equation which is the radial time independent Schrodinger equation, (4) the stability and the interval of periodicity analysis of the new developed method which will be based on a scalar test equation with frequency different than the frequency of the scalar test equation used for the phase-lag analysis, and (5) the efficiency of the new obtained method based on its application to the coupled Schrodinger equations.
引用
收藏
页数:20
相关论文
共 57 条
[21]  
Leach AR, 2001, MOL MODELLING PRINCI
[22]   A new four stages symmetric two-step method with vanished phase-lag and its first derivative for the numerical integration of the Schrodinger equation [J].
Liang, Minjian ;
Simos, T. E. .
JOURNAL OF MATHEMATICAL CHEMISTRY, 2016, 54 (05) :1187-1211
[23]   CHEBYSHEVIAN MULTISTEP METHODS FOR ORDINARY DIFFERENTIAL EQUATIONS [J].
LYCHE, T .
NUMERISCHE MATHEMATIK, 1972, 19 (01) :65-&
[24]   Construction of Exponentially Fitted Symplectic Runge-Kutta-Nystrom Methods from Partitioned Runge-Kutta Methods [J].
Monovasilis, T. ;
Kalogiratou, Z. ;
Simos, T. E. .
MEDITERRANEAN JOURNAL OF MATHEMATICS, 2016, 13 (04) :2271-2285
[25]   Exponentially Fitted Symplectic Runge-Kutta-Nystrom methods [J].
Monovasilis, Th. ;
Kalogiratou, Z. ;
Simos, T. E. .
APPLIED MATHEMATICS & INFORMATION SCIENCES, 2013, 7 (01) :81-85
[26]   A family of trigonometrically fitted partitioned Runge-Kutta symplectic methods [J].
Monovasilis, Th. ;
Kalogiratou, Z. ;
Simos, T. E. .
APPLIED MATHEMATICS AND COMPUTATION, 2009, 209 (01) :91-96
[27]   A Runge-Kutta type implicit high algebraic order two-step method with vanished phase-lag and its first, second, third and fourth derivatives for the numerical solution of coupled differential equations arising from the Schrodinger equation [J].
Mu, Kenan ;
Simos, T. E. .
JOURNAL OF MATHEMATICAL CHEMISTRY, 2015, 53 (05) :1239-1256
[28]   A low computational cost eight algebraic order hybrid method with vanished phase-lag and its first, second, third and fourth derivatives for the approximate solution of the Schrodinger equation [J].
Ning, Hang ;
Simos, T. E. .
JOURNAL OF MATHEMATICAL CHEMISTRY, 2015, 53 (06) :1295-1312
[29]   An eight-step semi-embedded predictor-corrector method for orbital problems and related IVPs with oscillatory solutions for which the frequency is unknown [J].
Panopoulos, G. A. ;
Simos, T. E. .
JOURNAL OF COMPUTATIONAL AND APPLIED MATHEMATICS, 2015, 290 :1-15
[30]   A New Optimized Symmetric Embedded Predictor-Corrector Method (EPCM) for Initial-Value Problems with Oscillatory Solutions [J].
Panopoulos, G. A. ;
Simos, T. E. .
APPLIED MATHEMATICS & INFORMATION SCIENCES, 2014, 8 (02) :703-713
123456