actinic glass

简明释义

光化玻璃

英英释义

例句

1.When creating prints, artists often choose actinic glass for its protective qualities.

在制作印刷品时，艺术家通常选择光化玻璃，因为它具有保护特性。

2.The aquarium was designed with actinic glass to enhance the colors of the fish.

水族馆采用光化玻璃设计，以增强鱼类的颜色。

3.To prevent fading, the museum installed actinic glass in the display cases.

为了防止褪色，博物馆在展柜中安装了光化玻璃。

4.The photographer used actinic glass to protect the film from harmful UV rays.

摄影师使用光化玻璃来保护胶卷免受有害紫外线的影响。

5.In the lab, we utilize actinic glass for experiments involving sensitive chemicals.

在实验室中，我们利用光化玻璃进行涉及敏感化学品的实验。

作文

In the world of photography and optics, materials play a crucial role in determining the quality and characteristics of the final image. One such material that has gained prominence in specialized applications is actinic glass. This type of glass is specifically designed to transmit ultraviolet (UV) light while filtering out other wavelengths. As a result, it is particularly useful in various scientific and artistic fields, including photography, microscopy, and even certain medical applications. Understanding the properties and uses of actinic glass can greatly enhance our appreciation for its significance in these areas.The term 'actinic' refers to the ability of a material to affect chemical reactions when exposed to light. In the case of actinic glass, its primary function is to allow UV light to pass through, which is essential for processes like photographic development and certain types of scientific experimentation. Traditional glass tends to block UV light, which can be detrimental in settings where this wavelength is necessary. For photographers, using actinic glass means they can capture images with specific lighting conditions that are otherwise impossible with standard glass.One of the most notable applications of actinic glass is in the field of photography, especially in black and white film photography. Photographers often use filters made from this type of glass to enhance the contrast and clarity of their images. By allowing UV light to penetrate, these filters can create striking effects that bring out details not visible to the naked eye. Additionally, actinic glass is instrumental in developing photographic prints, as it allows for proper exposure during the printing process.Beyond photography, actinic glass also finds its place in microscopy. In biological and chemical research, scientists frequently require precise control over the wavelengths of light used in their experiments. The ability of actinic glass to transmit UV light makes it an invaluable tool in fluorescence microscopy, where specific wavelengths are needed to excite fluorescent dyes. This capability enables researchers to visualize structures and processes at a cellular level, leading to significant advancements in our understanding of biology and medicine.Moreover, actinic glass is utilized in certain medical applications, particularly in phototherapy. Conditions like psoriasis and eczema can be treated using UV light, and the careful selection of glass that allows for optimal UV transmission is critical in these treatments. Medical professionals rely on the properties of actinic glass to ensure that patients receive the appropriate dosage of light therapy, maximizing effectiveness while minimizing potential harm.In conclusion, actinic glass represents a fascinating intersection of art and science. Its ability to transmit UV light while filtering out other wavelengths opens up a myriad of possibilities in photography, microscopy, and medical treatments. As we continue to explore the capabilities of this unique material, it is essential to recognize its importance in enhancing our understanding of the world around us. Whether capturing stunning images, conducting groundbreaking research, or providing therapeutic benefits, actinic glass remains a vital component in various fields, showcasing the profound impact that specialized materials can have on our lives and knowledge.

在摄影和光学的世界中，材料在决定最终图像的质量和特性方面发挥着至关重要的作用。其中一种在专业应用中获得了显著关注的材料是actinic glass。这种类型的玻璃专门设计用于传输紫外线（UV）光，同时过滤掉其他波长。因此，它在包括摄影、显微镜和某些医学应用等多个科学和艺术领域中尤其有用。理解actinic glass的性质和用途可以大大增强我们对其在这些领域中重要性的欣赏。“actinic”这个术语指的是材料在暴露于光线时影响化学反应的能力。在actinic glass的情况下，它的主要功能是允许紫外线光通过，这对于摄影发展和某些类型的科学实验至关重要。传统玻璃往往会阻挡紫外线光，这在需要这种波长的环境中可能是有害的。对于摄影师来说，使用actinic glass意味着他们可以捕捉到在标准玻璃下无法实现的特定光照条件的图像。actinic glass最显著的应用之一是在摄影领域，特别是在黑白胶卷摄影中。摄影师经常使用这种类型的玻璃制成的滤镜来增强图像的对比度和清晰度。通过允许紫外线光穿透，这些滤镜可以创造出引人注目的效果，突出肉眼不可见的细节。此外，actinic glass在摄影打印过程中也起着重要作用，因为它允许在打印过程中进行适当的曝光。除了摄影，actinic glass还在显微镜学中发挥着作用。在生物和化学研究中，科学家们通常需要精确控制实验中使用的光波长。actinic glass能够传输紫外线光，使其在荧光显微镜中成为一项宝贵的工具，在该工具中，需要特定波长来激发荧光染料。这种能力使研究人员能够在细胞水平上可视化结构和过程，从而在我们对生物学和医学的理解上取得重大进展。此外，actinic glass在某些医学应用中也被利用，特别是在光疗法中。牛皮癣和湿疹等病症可以通过紫外线光进行治疗，仔细选择允许最佳紫外线传输的玻璃在这些治疗中至关重要。医疗专业人员依赖actinic glass的特性，以确保患者接受适当剂量的光疗，最大限度地提高疗效，同时减少潜在的伤害。总之，actinic glass代表了艺术与科学的迷人交汇点。它传输紫外线光而过滤掉其他波长的能力为摄影、显微镜和医疗治疗开辟了无数可能性。随着我们继续探索这种独特材料的能力，认识到它在增强我们对周围世界的理解中的重要性至关重要。无论是捕捉惊人的图像、进行开创性的研究，还是提供治疗益处，actinic glass始终是各个领域的重要组成部分，展示了专业材料对我们的生活和知识的深远影响。