More Like this

1. Post-2000 nonlinear optical materials and their characterization: data tables and best practices

   Nathalie Vermeulen, Daniel Espinosa (June 2023, The European Conference on Lasers and Electro-Optics 2023)

   In its 60 years of existence, the field of nonlinear optics (NLO) has witnessed tremendous growth, and it has been gaining additional momentum over the past two decades thanks to major breakthroughs in materials science and technology. However, a data table providing an overview of these post-2000 developments in NLO has not yet been presented. Here, we introduce a new set of NLO data tables based on a representative collection of experimental works published since 2000 for different material categories (bulk materials, solvents, 0D-1D-2D materials, metamaterials, fiber waveguiding materials, on-chip waveguiding materials, hybrid waveguiding systems, and THz NLO materials) [1]. The data tables are mostly focused on experimental papers that not only provided NLO coefficients, but also reported experimental parameters that give the context and limits of validity for using the quoted coefficient values. In this regard, we decided to also include in our work a list of best practices for performing and reporting NLO experiments [1]. 

   more » « less
2. Post-2000 progress in nonlinear optics: tabulating new materials and best practices

   N. Vermeulen, D. Espinosa (January 2024, SPIE Publishing)

   The field of Nonlinear Optics (NLO), launched about 60 years ago, has gained considerable momentum over the past two decades, resulting in an enormous growth in NLO publications for a wide range of material categories, including bulk materials, 0D-1D-2D materials, metamaterials, fiber waveguiding materials, on-chip waveguiding materials, and hybrid waveguiding systems. However, a convenient summary of NLO data collected since 2000 for these different material types has been lacking and would be a valuable resource for researchers in the field. Here, we present a new set of data tables showcasing a representative list of NLO properties taken from the literature since 2000 on the above-mentioned material categories. Furthermore, we provide best practices for performing and reporting NLO experiments. These best practices underpin the selection process that we used for including papers in the tables, and also form the foundation for a more adequate comparison, interpretation, and use of the NLO parameters published today and those that will be published in the future. 

   more » « less
3. Data Tables and Best Practices for Post-2000 Nonlinear-Optical Materials and Measurements

   https://doi.org/10.1364/NLO.2023.Th1B.2  

   Vermeulen, Nathalie; Espinosa, Daniel; Ball, Adam; Ballato, John; Boucaud, Philippe; Boudebs, Georges; Campos, Cecilia L.; Dragic, Peter; Gomes, Anderson S.; Huttunen, Mikko J.; et al (January 2023, Optica Publishing Group)

   On the occasion of 60 years of nonlinear-optical research, we present new data tables listing nonlinear- optical properties for different material categories as reported in the literature since 2000, and provide best practices for performing experiments. 

   more » « less
4. Integrated photonics on thin-film lithium niobate

   https://doi.org/10.1364/AOP.411024  

   Zhu, Di; Shao, Linbo; Yu, Mengjie; Cheng, Rebecca; Desiatov, Boris; Xin, C_J; Hu, Yaowen; Holzgrafe, Jeffrey; Ghosh, Soumya; Shams-Ansari, Amirhassan; et al (May 2021, Advances in Optics and Photonics)

   Lithium niobate (LN), an outstanding and versatile material, has influenced our daily life for decades—from enabling high-speed optical communications that form the backbone of the Internet to realizing radio-frequency filtering used in our cell phones. This half-century-old material is currently embracing a revolution in thin-film LN integrated photonics. The successes of manufacturing wafer-scale, high-quality thin films of LN-on-insulator (LNOI) and breakthroughs in nanofabrication techniques have made high-performance integrated nanophotonic components possible. With rapid development in the past few years, some of these thin-film LN devices, such as optical modulators and nonlinear wavelength converters, have already outperformed their legacy counterparts realized in bulk LN crystals. Furthermore, the nanophotonic integration has enabled ultra-low-loss resonators in LN, which has unlocked many novel applications such as optical frequency combs and quantum transducers. In this review, we cover—from basic principles to the state of the art—the diverse aspects of integrated thin-film LN photonics, including the materials, basic passive components, and various active devices based on electro-optics, all-optical nonlinearities, and acousto-optics. We also identify challenges that this platform is currently facing and point out future opportunities. The field of integrated LNOI photonics is advancing rapidly and poised to make critical impacts on a broad range of applications in communication, signal processing, and quantum information. 

   more » « less
5. Decoding Optical Data with Machine Learning

   https://doi.org/10.1002/lpor.202000422  

   Fang, Jie; Swain, Anand; Unni, Rohit; Zheng, Yuebing (December 2020, Laser & Photonics Reviews)

   Abstract Optical spectroscopy and imaging techniques play important roles in many fields such as disease diagnosis, biological study, information technology, optical science, and materials science. Over the past decade, machine learning (ML) has proved promising in decoding complex data, enabling rapid and accurate analysis of optical spectra and images. This review aims to shed light on various ML algorithms for optical data analysis with a focus on their applications in a wide range of fields. The goal of this work is to sketch the validity of ML‐based optical data decoding. The review concludes with an outlook on unaddressed problems and opportunities in this emerging subject that interfaces optics, data science, and ML. 

   more » « less