Abstract

Theoretical study of the phenomenon of blow-up solutions for semilinear Schrödinger equations has been the subject of investigations of many authors. It is said that the maximal time interval of existence of the solution blows up in a finite time when this time is finite, and the solution develops a singularity in a finite time. In fact, semilinear Schrhödinger equation models a lot of physical phenomenon such as nonlinear optics, energy transfer in molecular systems, quantum mechanics, seismology, plasma physics. In the past, certain authors have used numerical methods to study the phenomenon of blow-up for semilinear Schrödinger equations. They have considered the same problem and one proves that the energy of the system is conserved, and the method used to show blow-up solutions are based on the energy's method. This paper proposes a method based on a modification of the method of Kaplan using eigenvalues and eigenfunctions to show that the semidiscrete solution blows up in a finite time under some assumptions. The semidiscrete blow-up time is also estimate. Similar results are obtain replacing the reaction term by another form to generalise the result. Finally, this paper propose two schemes for some numerical experiments and a graphics is given to illustrate the analysis.

Highlights

  • This paper concerns the numerical approximation for the following initial-boundary value problem for a semilinear Schrhödinger equation of the form:| |, ∈ 0, 1, ∈ 0, (1) 0, 0, 1, 0, ∈ 0, (2), ∈ 0,1, (3)which appears in a lot of models of nonlinear optics, energy transfer in molecular systems, quantum mechanics, seismology, plasma physics, see [4, 21, 28], to cite only a few cases

  • Which appears in a lot of models of nonlinear optics, energy transfer in molecular systems, quantum mechanics, seismology, plasma physics, see [4, 21, 28], to cite only a few cases

  • Certain authors have used numerical methods to study the phenomenon of blow-up for semilinear Schrödinger equations but they have considered the problem (1)--(3) in the case where the term − |, | is replaced by − |, |

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Summary

Introduction

This paper concerns the numerical approximation for the following initial-boundary value problem for a semilinear Schrhödinger equation of the form:. Certain authors have used numerical methods to study the phenomenon of blow-up for semilinear Schrödinger equations but they have considered the problem (1)--(3) in the case where the term − | , | is replaced by − | , |

Semidiscrete Blow-up Solutions
Numerical Results
Conclusion

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