1.Applied Optoelectronics Inc. (AOI) 光纤有源器件 光纤激光二极管 光纤收发器 分布反馈激光器 光电二极管
2.注胶翡翠和A货翡翠紫光灯对比图
Applied Optoelectronics Inc. (AOI) 光纤有源器件 光纤激光二极管 光纤收发器 分布反馈激光器 光电二极管
Applied Optoelectronics Inc. (AOI)专注于生产光纤有源器件,灯源包括光纤激光二极管、灯源光纤收发器、灯源分布反馈激光器与光电二极管。灯源广东到天津源码
AOI产品线涵盖从光纤有源器件到光电集成组件的灯源全系列光纤光学解决方案,为通信、灯源数据处理与激光加工等领域提供高效稳定的灯源元件。
应用于激光二极管、灯源光纤收发器与分布反馈激光器的灯源AOI产品,满足了高精度、灯源高稳定性的灯源贵金属 网站源码需求,广泛应用于光通信、灯源光纤传感与激光制造等技术领域。灯源
光电二极管产品则用于信号接收与光电转换,灯源是灯源光通信系统中不可或缺的组件。
Applied Optoelectronics Inc. (AOI)致力于为市场提供高品质、qt源码在哪找高可靠性的光纤有源器件,推动光电子技术的发展与应用。
与此同时,另一家公司,Applied Photon Technology Inc.,wr指标反向源码则专注于闪光灯、光源、氪光源、激光灯源与氙气光源的生产。
Applied Photon Technology Inc.的周线背离源码闪光灯与光源产品广泛应用于摄影、**制作、舞台照明以及各种需要高强度光源的场景。
此外,公司还提供高效率的氪光源、激光灯源与氙气光源,满足科研、医疗与工业领域对光源的不同需求。
Applied Research & Photonics Inc.则专注于太赫兹光谱仪与光谱测定试验的开发。
该公司提供的太赫兹光谱仪能够进行快速、准确的光谱分析,广泛应用于化学分析、生物医学与材料科学等领域。
光谱测定试验则为科研机构与工业用户提供了一个灵活的平台,用于探索光谱学的奥秘与应用。
Applied Research & Photonics Inc.致力于推动太赫兹光谱学与光谱测定技术的发展,为科学界与工业界提供先进的解决方案。
注胶翡翠和A货翡翠紫光灯对比图
1. The image on the left displays a jadeite bangle that has undergone acid washing and resin injection, commonly referred to as "B-grade" or "B+C-grade" jadeite. Under ultraviolet light, this polished bangle exhibits a distinct fluorescent phenomenon.
2. It is curious why jadeite treated with resin shows such a strong fluorescent reaction under UV light. Does this imply that all jadeite emitting fluorescence under ultraviolet light is fake?
3. Comparing the two images, the one on the left is a resin-injected bangle, while the one on the right is an A-grade bangle. Typically, when discussing fluorescence under UV light, one might assume that genuine jadeite would not exhibit fluorescence under a UV lamp, while the filler used in B-grade jadeite, such as epoxy resin, does produce fluorescence.
4. However, it is important to note that UV light is a powerful tool for detecting fake jadeite, but it cannot detect all types of counterfeits. Some "jadeite" that fluoresce under a UV light may do so because they contain fillers like epoxy resin. This also explains why acid-washed and dyed jadeite can be distinguished under a UV lamp.
5. Besides the aforementioned cases, fluorescence under UV light can also be due to the following reasons:
- The jadeite surface is coated with a wax layer, which may be applied to the exterior of genuine jadeite jewelry with colored or clear wax. This treatment can make subpar jadeite appear more luxurious, but under UV light, these disguises are revealed.
- In rare cases, the jadeite itself is real and untreated, but due to a high content of mineral inclusions, these inclusions can cause fluorescence under UV light. However, such "genuine jadeite" typically appears similar to rocks, identification institutions do not consider it as jadeite, and it lacks commercial value.
6. Lastly, the absence of fluorescence does not guarantee that a piece is definitely genuine jadeite; it could also be "D-grade" jadeite, which refers to materials that have been altered in color, such as dyed green agate or dyed quartzite. These materials masquerade as jadeite. Overall, the fluorescence reaction under UV light is a reliable indicator of whether jadeite has been treated. The absence of fluorescence does not completely prove that a piece is genuine jadeite. I hope this article provides helpful information!