期刊名称：Optics

期刊主页：https://www.mdpi.com/journal/optics

主编：Prof. Dr. Costantino De Angelis, University of Brescia, Italy;

Prof. Dr. Thomas Seeger, Universität Siegen, Germany

期刊介绍：Optics 创刊于2020年，旨在为光学领域的高影响力基础研究和应用研究提供一个开放的交流平台。期刊主要发表综述型、研究型论文和简短通讯，主题涵盖生物医学光学、激光光学、纳米光子学与超材料、非线性光学、光通信、光学成像、光学性质、光子学、量子光学、传感器与传感、光伏发电、光学分析方法等。目前已被ESCI (Web of Science)、Scopus、CNKI等数据库收录。

本清单收录 MDPI Optics 期刊2022和2023年编辑精选文章合集，主题主要涉及拉曼光谱，光学成像，光学性质表征等。文中所展示的数据集均已提交至线上数据库平台，详情参考文中数据可用性声明。希望这些优秀的文章能为您的研究带来启发，欢迎阅读！

1. Investigating Laser-Induced Periodic Surface Structures (LIPSS) Formation in Silicon and Their Impact on Surface-Enhanced Raman Spectroscopy (SERS)

研究硅中激光诱导周期性表面结构 (LIPSS) 的形成及其对表面增强拉曼光谱 (SERS) 的影响

https://www.mdpi.com/2673-3269/4/4/39

Vaghasiya, H.; Miclea, P.-T. Investigating Laser-Induced Periodic Surface Structures (LIPSS) Formation in Silicon and Their Impact on Surface-Enhanced Raman Spectroscopy (SERS). Optics 2023, 4, 538-550. https://doi.org/10.3390/opt4040039

2. Advanced Raman Spectroscopy Based on Transfer Learning by Using a Convolutional Neural Network for Personalized Colorectal Cancer Diagnosis

基于卷积神经网络的迁移学习高级拉曼光谱技术在个性化结直肠癌诊断中的应用

https://www.mdpi.com/2673-3269/4/2/22

Kalatzis, D.; Spyratou, E.; Karnachoriti, M.; Kouri, M.A.; Orfanoudakis, S.; Koufopoulos, N.; Pouliakis, A.; Danias, N.; Seimenis, I.; Kontos, A.G.; et al. Advanced Raman Spectroscopy Based on Transfer Learning by Using a Convolutional Neural Network for Personalized Colorectal Cancer Diagnosis. Optics 2023, 4, 310-320. https://doi.org/10.3390/opt4020022

3. Direct Laser Writing of Computer-Generated Holograms by Photodissolution of Silver in Arsenic Trisulfide

利用光溶解三硫化砷中的银直接激光写入计算机生成全息图

https://www.mdpi.com/2673-3269/4/1/10

Karimbana Kandy, A.; Figueiredo, C.S.M.; Fernandez Merino, M.; Bourgade, A.; Natoli, J.-Y.; Iliopoulos, K.; Lumeau, J. Direct Laser Writing of Computer-Generated Holograms by Photodissolution of Silver in Arsenic Trisulfide. Optics 2023, 4, 138-145. https://doi.org/10.3390/opt4010010

4. Gold Nanoparticles as Contrast Agents in Ophthalmic Imaging

金纳米粒子作为眼科成像的造影剂

https://www.mdpi.com/2673-3269/4/1/7

Kavalaraki, A.; Spyratou, E.; Kouri, M.A.; Efstathopoulos, E.P. Gold Nanoparticles as Contrast Agents in Ophthalmic Imaging. Optics 2023, 4, 74-99. https://doi.org/10.3390/opt4010007

5. A Multi-Spectral Thermal Gas Detection Imager Using Uncooled Infrared Camera

基于非制冷红外相机的多光谱热气体检测成像仪

https://www.mdpi.com/2673-3269/3/4/40

Cui, F.-X.; Zhao, Y.; Wang, A.-J.; Ma, F.-X.; Wu, J.; Li, Y.-Y.; Li, D.-C.; Dong, W.-C. A Multi-Spectral Thermal Gas Detection Imager Using Uncooled Infrared Camera. Optics 2022, 3, 473-482. https://doi.org/10.3390/opt3040040

6. Improving Early Optics Instruction Using a Phenomenological Approach: A Field Study

利用现象学方法改进早期光学教学：一项实地研究

https://www.mdpi.com/2673-3269/3/4/35

Fliegauf, K.; Sebald, J.; Veith, J.M.; Spiecker, H.; Bitzenbauer, P. Improving Early Optics Instruction Using a Phenomenological Approach: A Field Study. Optics 2022, 3, 409-429. https://doi.org/10.3390/opt3040035

7. Selected Concepts of Quantum State Tomography

量子态层析成像的若干概念

https://www.mdpi.com/2673-3269/3/3/26

Czerwinski, A. Selected Concepts of Quantum State Tomography. Optics 2022, 3, 268-286. https://doi.org/10.3390/opt3030026

8. Optical Properties of Tungsten: A Parametric Study to Characterize the Role of Roughness, Surface Composition and Temperature

钨的光学性质：表征粗糙度、表面成分和温度作用的参数研究

https://www.mdpi.com/2673-3269/3/3/21

Pappalardo, F.; Romero Lairado, F.; Louis de Canonville, C.; Martin, C.; Giacometti, G.; Serin, G.; Salomon, E.; Angot, T.; Gallais, L.; Bisson, R.; et al. Optical Properties of Tungsten: A Parametric Study to Characterize the Role of Roughness, Surface Composition and Temperature. Optics 2022, 3, 216-224. https://doi.org/10.3390/opt3030021

9. Photonic and Optomechanical Thermometry

光子和光机械测温

https://www.mdpi.com/2673-3269/3/2/17

Briant, T.; Krenek, S.; Cupertino, A.; Loubar, F.; Braive, R.; Weituschat, L.; Ramos, D.; Martin, M.J.; Postigo, P.A.; Casas, A.; et al. Photonic and Optomechanical Thermometry. Optics 2022, 3, 159-176. https://doi.org/10.3390/opt3020017

10. Resolution Limit of Correlation Plenoptic Imaging between Arbitrary Planes

任意平面间相关全光成像的分辨率极限

https://www.mdpi.com/2673-3269/3/2/15

Scattarella, F.; D’Angelo, M.; Pepe, F.V. Resolution Limit of Correlation Plenoptic Imaging between Arbitrary Planes. Optics 2022, 3, 138-149. https://doi.org/10.3390/opt3020015