کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
429587 | 687606 | 2012 | 10 صفحه PDF | دانلود رایگان |
![عکس صفحه اول مقاله: Efficient and accurate numerical modeling of a micro–macro nonlinear optics model for intense and short laser pulses Efficient and accurate numerical modeling of a micro–macro nonlinear optics model for intense and short laser pulses](/preview/png/429587.png)
In this work we are interested in the fast simulation of ultrashort and intense laser pulses propagating in macroscopic nonlinear media. In this goal, we consider the numerical micro–macro Maxwell–Schrödinger-Plasma model originally presented by Lorin et al. [9] and [10]. Although this model is, in theory, applicable to large domains, due to its computational complexity, only short distances of propagation could be considered (less than 1 mm so far, see [9]). In the present paper, we explore some simple, but fast and accurate techniques allowing to reduce the computational complexity by a large factor (up to 60) and then to consider larger domains. This reduction is naturally essential to make this model relevant to study realistic laser–matter interactions at a macroscopic scale. Numerical simulations are proposed to illustrate the chosen approach.
► In this work we are interested in the fast simulation of ultrashort and intense laser pulses propagating in macroscopic nonlinear media.
► In this goal, we use the micro–macro Maxwell–Schrödinger-Plasma model originally presented in [10] and [9].
► Although this model is, in theory, applicable to large domains, due to its computational complexity, only short distances of propagation could be considered (less than 1 mm so far, see [9] and [12]).
► In the present paper, we explore some simple, but fast and accurate techniques allowing to consider much larger (50–100 times larger) domains.
► This question is naturally essential to make this model relevant to study realistic laser–matter interactions at a macroscopic scale.
► Numerical simulations are proposed to illustrate the chosen approach.
Journal: Journal of Computational Science - Volume 3, Issue 3, May 2012, Pages 159–168