(3+1)-dimensional localized self-accelerating Airy elegant Ince-Gaussian wave packets and their radiation forces in free space

doi:10.1088/1674-1056/26/12/124202

Abstract

We construct analytically linear self-accelerating Airy elegant Ince-Gaussian wave packet solutions from (3+1)-dimensional potential-free Schrödinger equation. These wave packets have elliptical geometry and show different characteristics when the parameters (p, m) and ellipticity ε are adjusted. We investigate these characteristics both analytically and numerically and give the 3-dimensional intensity and phase distribution of these wave packets. Lastly, we analyze the radiation forces on a Rayleigh dielectric particle. In addition, we also find an interesting phenomenon that if the energy distribution between every part of wave packets is uneven at the input plane, the energy will be transferred between every part in the process of transmission.

Keywords: wave propagation beam optics computer-generated holograms

Received: 30 July 2017
Revised: 27 August 2017
Accepted manuscript online:

PACS:	42.25.Bs	(Wave propagation, transmission and absorption)
	41.85.-p	(Beam optics)
	42.40.Jv	(Computer-generated holograms)

Fund:

Project supported by the National Natural Science Foundation of China (Grant Nos. 11374108, 11374107, and 11775083), the Funds from CAS Key Laboratory of Geospace Environment, University of Science and Technology of China, and the Innovation Project of Graduate School of South China Normal University (Grant No. 2016lkxm64).

Corresponding Authors: Dongmei Deng
E-mail: dmdeng@263.net

Cite this article:

Dongdong Li(李冬冬), Xi Peng(彭喜), Yulian Peng(彭玉莲), Liping Zhang(张丽萍), Xingyu Chen(陈星宇), Jingli Zhuang(庄经立), Fang Zhao(赵方), Xiangbo Yang(杨湘波), Dongmei Deng(邓冬梅) (3+1)-dimensional localized self-accelerating Airy elegant Ince-Gaussian wave packets and their radiation forces in free space 2017 Chin. Phys. B 26 124202

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(3+1)-dimensional localized self-accelerating Airy elegant Ince-Gaussian wave packets and their radiation forces in free space

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