分数阶薛定谔方程中的无衍射光束。

Diffraction-free beams in fractional Schrödinger equation.

机构信息

Key Laboratory for Physical Electronics and Devices of the Ministry of Education &Shaanxi Key Lab of Information Photonic Technique, Xi'an Jiaotong University, Xi'an 710049, China.

Science Program, Texas A&M University at Qatar, P.O. Box 23874 Doha, Qatar.

出版信息

Sci Rep. 2016 Apr 21;6:23645. doi: 10.1038/srep23645.

DOI:10.1038/srep23645

PMID:27097656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4838869/

Abstract

We investigate the propagation of one-dimensional and two-dimensional (1D, 2D) Gaussian beams in the fractional Schrödinger equation (FSE) without a potential, analytically and numerically. Without chirp, a 1D Gaussian beam splits into two nondiffracting Gaussian beams during propagation, while a 2D Gaussian beam undergoes conical diffraction. When a Gaussian beam carries linear chirp, the 1D beam deflects along the trajectories z = ±2(x - x0), which are independent of the chirp. In the case of 2D Gaussian beam, the propagation is also deflected, but the trajectories align along the diffraction cone z = 2√(x(2) + y(2)) and the direction is determined by the chirp. Both 1D and 2D Gaussian beams are diffractionless and display uniform propagation. The nondiffracting property discovered in this model applies to other beams as well. Based on the nondiffracting and splitting properties, we introduce the Talbot effect of diffractionless beams in FSE.

摘要

我们在无势的分数阶薛定谔方程中对一维和二维（1D，2D）高斯光束的传播进行了理论和数值分析。在没有啁啾的情况下，1D 高斯光束在传播过程中分裂成两个无衍射的高斯光束，而 2D 高斯光束则经历了锥形衍射。当高斯光束携带线性啁啾时，1D 光束沿轨迹 z = ±2(x - x0) 发生偏转，该轨迹与啁啾无关。在 2D 高斯光束的情况下，传播也会发生偏转，但轨迹沿衍射锥 z = 2√(x(2) + y(2)) 对齐，方向由啁啾决定。1D 和 2D 高斯光束都是无衍射的，并显示出均匀的传播。在该模型中发现的无衍射特性也适用于其他光束。基于无衍射和分裂特性，我们在分数阶薛定谔方程中引入了无衍射光束的泰伯效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4b5/4838869/f2dcc6faafd7/srep23645-f1.jpg

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分数阶薛定谔方程中的无衍射光束。

Diffraction-free beams in fractional Schrödinger equation.

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