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Main Authors: Huang, Zhaofeng, Su, Xiaolin, Cao, Qian, Chong, Andy, Zhan, Qiwen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.05805
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author Huang, Zhaofeng
Su, Xiaolin
Cao, Qian
Chong, Andy
Zhan, Qiwen
author_facet Huang, Zhaofeng
Su, Xiaolin
Cao, Qian
Chong, Andy
Zhan, Qiwen
contents Airy beams, celebrated for their self-acceleration, diffraction-free propagation, and self-healing properties, have garnered significant interest in optics and photonics, with applications spanning ultrafast optics, laser processing, nonlinear optics, and optical communications. Recent research primarily aims at independent control of Airy beams in both spatial and spatiotemporal domains. In a pioneering approach, we have successfully generated and controlled a spatiotemporal coupled (STc) Airy-Airy wavepacket, achieving its rotation while preserving vertical distribution in the spatiotemporal domain. Furthermore, we have investigated the self-acceleration and self-healing properties of the STc Airy-Airy wavepacket in this domain, noting that its dynamically adjustable rotation and spatiotemporal coupling capability provide a novel strategy for managing ultrafast lasers, with potential advancements in optical micromanipulation and time-domain coding communication.
format Preprint
id arxiv_https___arxiv_org_abs_2506_05805
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spatiotemporal coupled Airy-Airy wavepacket and its propagation dynamics
Huang, Zhaofeng
Su, Xiaolin
Cao, Qian
Chong, Andy
Zhan, Qiwen
Optics
Airy beams, celebrated for their self-acceleration, diffraction-free propagation, and self-healing properties, have garnered significant interest in optics and photonics, with applications spanning ultrafast optics, laser processing, nonlinear optics, and optical communications. Recent research primarily aims at independent control of Airy beams in both spatial and spatiotemporal domains. In a pioneering approach, we have successfully generated and controlled a spatiotemporal coupled (STc) Airy-Airy wavepacket, achieving its rotation while preserving vertical distribution in the spatiotemporal domain. Furthermore, we have investigated the self-acceleration and self-healing properties of the STc Airy-Airy wavepacket in this domain, noting that its dynamically adjustable rotation and spatiotemporal coupling capability provide a novel strategy for managing ultrafast lasers, with potential advancements in optical micromanipulation and time-domain coding communication.
title Spatiotemporal coupled Airy-Airy wavepacket and its propagation dynamics
topic Optics
url https://arxiv.org/abs/2506.05805