JPhys Photonics研究文章|2000年后非线性光学材料和测量:数据表及最佳实践

02 8月 2023 gabriels
In its 60 years of existence, the field of nonlinear optics has gained momentum especially over the past two decades thanks to major breakthroughs in material science and technology. In this article, we present a new set of data tables listing nonlinear-optical properties for different material categories as reported in the literature since 2000. The papers included in the data tables are representative experimental works on bulk materials, solvents, 0D–1D–2D materials, metamaterials, fiber waveguiding materials, on-chip waveguiding materials, hybrid waveguiding systems, and materials suitable for nonlinear optics at THz frequencies. In addition to the data tables, we also provide best practices for performing and reporting nonlinear-optical experiments. These best practices underpin the selection process that was used for including papers in the tables. While the tables indeed show strong advancements in the field over the past two decades, we encourage the nonlinear-optics community to implement the identified best practices in future works. This will allow a more adequate comparison, interpretation and use of the published parameters, and as such further stimulate the overall progress in nonlinear-optical science and applications.

文章介绍

Post-2000 nonlinear optical materials and measurements: data tables and best practices

Nathalie Vermeulen, Daniel Espinosa, Adam Ball, John Ballato, Philippe Boucaud, Georges Boudebs, Cecília L A V Campos, Peter Dragic, Anderson S L Gomes, Mikko J Huttunen, Nathaniel Kinsey, Rich Mildren, Dragomir Neshev, Lázaro A Padilha, Minhao Pu, Ray Secondo, Eiji Tokunaga, Dmitry Turchinovich, Jingshi Yan, Kresten Yvind, Ksenia Dolgaleva and Eric W Van Stryland

通讯作者:

  • Nathalie Vermeulen,比利时荷语布鲁塞尔自由大学

期刊介绍

JPhys Photonics

  • 2022年影响因子:3.8  Citescore: 7.2
  • JPhys Photonics(JPPHOTON)是一本新出版的开放获取期刊,面向物理学中应用于光子学各个领域的高质量研究。期刊包含光子学研究中最重要和最激动人心的进展,着重关注跨学科和多学科的研究。涵盖领域包括:生物光子学和生物医学光学;能源和绿色技术应用,包括光伏;成像、检测和传感;光物质相互作用;光源,包括激光器和LED;纳米光子学;非线性和超快光学;光通信和光纤;光数据存储;光电子学、集成光学和半导体光子学;光子材料、超材料和工程结构;等离子体技术;传播,相互作用和行为;量子光子学和光学等。