Spatiotemporal hollow multi-ring optical solitons in strongly nonlocal nonlinear media

IF 1.1 4区 工程技术 Q4 OPTICS
Xiaping Zhang
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引用次数: 0

Abstract

Spatiotemporal optical solitons in strongly nonlocal nonlinear media (SNNM) are investigated theoretically and numerically by solving the ( 3 + 1 ) D Schrödinger equation in parabolic cylindric coordinates. The spatiotemporal optical solitons in parabolic cylindric coordinates are constructed by the Hermite–Gaussian pulses with topology charge l in the temporal domain and confluent hypergeometric beams with model number n, m in the spatial domain. The transverse field patterns of the solitons are manipulated by the confluent hypergeometric functions; meanwhile the Hermite–Gaussian pulses affect their transverse central peak’s intensity. Typical examples of the obtained soliton solutions are based on spatial mode numbers m, n, pulse topology charge l, and modulation depth q. The spatiotemporal hollow multi-ring optical soliton in SNNM with m ≠ 0 is first accessed. The spatiotemporal optical soliton keeps approximately non-dispersion properties in the temporal dimension, and their widths of packets remain steady in the spatial dimension. Their transverse central peak’s intensity vibrates and decays with the pulse topology charge l increasing. The spatiotemporal hollow multi-ring optical solitons in SNNM have potential applications in optical switches, optical communications, and three-dimensional microprinting.
强非局部非线性介质中的时空中空多环光孤子
通过在抛物柱坐标系下求解(3 + 1)D Schrödinger方程,对强非局部非线性介质(SNNM)中的时空光孤子进行了理论和数值研究。在抛物柱面坐标系下,时空光孤子由时域拓扑电荷为l的厄米-高斯脉冲和模型数为n, m的合流超几何光束构成。孤子的横向场模式由合流超几何函数控制;同时,厄米-高斯脉冲影响其横向中心峰的强度。得到了基于空间模数m、n、脉冲拓扑电荷l和调制深度q的典型孤子解。首先获得了m≠0的SNNM时空中空多环光孤子。时空光孤子在时间维度上保持近似非色散特性,其包的宽度在空间维度上保持稳定。它们的横向中心峰强度随脉冲拓扑电荷的增加而振动和衰减。SNNM中时空中空多环光孤子在光开关、光通信、三维微印刷等领域具有潜在的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Optical Engineering
Optical Engineering 工程技术-光学
CiteScore
2.70
自引率
7.70%
发文量
393
审稿时长
2.6 months
期刊介绍: Optical Engineering publishes peer-reviewed papers reporting on research and development in optical science and engineering and the practical applications of known optical science, engineering, and technology.
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