《Atmospheric And Oceanic Optics》国际简称:ATMOS OCEAN OPT,是由出版商Pleiades Publishing出版的一本致力于发布--研究新成果的的专业学术期刊。主要发表刊登有创见的学术论文文章、行业最新科研成果,扼要报道阶段性研究成果和重要研究工作的最新进展,选载对学科发展
《大气和海洋光学》(Atmospheric And Oceanic Optics)是一本以OPTICS综合研究为特色的国际期刊。该刊由Pleiades Publishing出版商刊期6 issues per year。该刊已被国际重要权威数据库SCIE收录。期刊聚焦OPTICS领域的重点研究和前沿进展,及时刊载和报道该领域的研究成果,致力于成为该领域同行进行快速学术交流的信息窗口与平台...
1.Estimation of the Integral Wind Velocity and Turbulence in the Atmosphere from Distortions of Optical Images of Naturally Illuminated Objects 机译:从自然照明物体的光学图像失真估计大气中的整体风速和湍流 作者:A. L. Afanasiev;V. A. Banakh;A. P. Rostov 期刊名称:《Atmospheric and oceanic optics》...
期刊大全 Atmospheric and Oceanic OpticsESCICAJST 发文量977 被引量3,019 影响因子(2023)0.928 Atmospheric and Oceanic Optics is an international peer-reviewed journal that presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and oceanic optics, ecology, and ...
The Atmospheric and Oceanic Optics presents experimental and theoretical articles relevant to a wide range of problems of atmospheric and ocean optics, ecology, and climate. The journal's coverage includes: scattering and transfer of optical waves, spectroscopy of atmospheric gases, turbulent and nonline...
期刊全称 Atmospheric and Oceanic Optics 期刊简称 Print ISSN 1024-8560 Online ISSN 2070-0393 期刊出版社 是否开放获取 Open Access,OA 暂无数据 官网地址 期刊所属领域 期刊简介 JCR分区索引信息2021年数据 是否是SCIE(SCI) 注:SCI已经完全被SCIE取代,参考:SCI被取代 ...
期刊名称:IZVESTIYA ATMOSPHERIC AND OCEANIC PHYSICS 期刊名缩写:IZV ATMOS OCEAN PHY+期刊ISSN:0001-4338E-ISSN:1555-628X2024年影响因子/JCR分区:0.9/Q4学科与分区:METEOROLOGY & ATMOSPHERIC SCIENCES - SCIE(Q4); OCEANOGRAPHY - SCIE(Q4)出版国家或地区:RUSSIA...
Atmospheric and Oceanic Optics is a peer-reviewed journal focusing on the interaction of light with the Earth's atmosphere and oceans. Publishes original ...
ATMOSPHERIC RADIATION, OPTICAL WEATHER, AND CLIMATE Open access Published:15 December 2022 Volume 35, pages 741–757, (2022) Cite this article Atmospheric and Oceanic Optics Show authors 2891Accesses 4Citations 3Altmetric Explore all metrics
The processes of planetary wave breaking (Rossby Wave Breaking – RWB) significantly contribute to variability in stratospheric circulation. Employing