chalcogenide glass

简明释义

硫属化合物玻璃

英英释义

例句

1.Researchers are exploring the properties of chalcogenide glass (硫族玻璃) for use in optical devices.

研究人员正在探索chalcogenide glass（硫族玻璃）在光学设备中的应用。

2.The flexibility of chalcogenide glass (硫族玻璃) allows for innovative designs in fiber optics.

chalcogenide glass（硫族玻璃）的灵活性使得光纤设计更加创新。

3.In the field of photonics, chalcogenide glass (硫族玻璃) is gaining attention for its high nonlinearity.

在光子学领域，chalcogenide glass（硫族玻璃）因其高非线性而受到关注。

4.Manufacturers are investing in chalcogenide glass (硫族玻璃) to create more efficient solar cells.

制造商正在投资于chalcogenide glass（硫族玻璃），以制造更高效的太阳能电池。

5.The unique thermal characteristics of chalcogenide glass (硫族玻璃) make it suitable for infrared optics.

由于其独特的热特性，chalcogenide glass（硫族玻璃）适合用于红外光学。

作文

In the realm of materials science, chalcogenide glass refers to a class of glasses that contain one or more chalcogen elements, such as sulfur, selenium, or tellurium. These unique materials have garnered significant attention due to their distinctive optical and electronic properties, making them suitable for various applications in photonics and electronics. The ability of chalcogenide glass to transmit infrared light while being opaque to visible light is particularly noteworthy. This characteristic has led to its use in infrared optics, including lenses and windows that operate in the infrared spectrum. One of the most fascinating aspects of chalcogenide glass is its high sensitivity to thermal and optical stimuli. This sensitivity allows for the development of phase-change materials, which can switch between different states when exposed to heat or light. Such materials are essential in the field of data storage, where they can be used to create rewritable discs that store information through changes in their physical state. The rapid switching capability of chalcogenide glass makes it an attractive candidate for next-generation memory devices. Additionally, chalcogenide glass exhibits excellent nonlinear optical properties, enabling its use in various photonic applications, including optical switches and frequency converters. These devices play a crucial role in telecommunications and signal processing, where the efficient manipulation of light is paramount. The integration of chalcogenide glass into photonic circuits could lead to significant advancements in the speed and efficiency of data transmission. Research into chalcogenide glass continues to evolve, with scientists exploring new compositions and fabrication methods to enhance its properties further. For instance, doping chalcogenide glass with different elements can tailor its optical characteristics, allowing for the customization of materials for specific applications. As a result, the versatility of chalcogenide glass positions it as a critical material in the ongoing development of advanced technologies. In conclusion, chalcogenide glass represents a fascinating intersection of chemistry and technology, offering a wide range of applications due to its unique properties. From infrared optics to advanced memory storage solutions, the potential of chalcogenide glass is vast and still largely untapped. As researchers continue to investigate its capabilities, we can expect to see innovative uses of this remarkable material in the near future. The ongoing exploration of chalcogenide glass will undoubtedly contribute to advancements in various fields, paving the way for new technologies that harness the power of light and heat.

在材料科学领域，硫族玻璃指的是一种包含一种或多种硫族元素（如硫、硒或碲）的玻璃。这些独特的材料因其独特的光学和电子特性而受到广泛关注，使其适合在光子学和电子学中应用。硫族玻璃能够传输红外光，同时对可见光不透明，这一特性尤为显著。这使得它在红外光学中的应用成为可能，包括在红外光谱中工作的透镜和窗口。硫族玻璃最引人注目的一个方面是其对热和光刺激的高度敏感性。这种敏感性使得相变材料的发展成为可能，这些材料在暴露于热量或光线时可以在不同状态之间切换。这类材料在数据存储领域至关重要，因为它们可以用于制造可重写的光盘，通过物理状态的变化来存储信息。硫族玻璃快速切换的能力使其成为下一代存储设备的有吸引力的候选者。此外，硫族玻璃表现出优异的非线性光学特性，使其在各种光子应用中得以使用，包括光开关和频率转换器。这些设备在电信和信号处理领域发挥着至关重要的作用，其中高效操控光线是至关重要的。将硫族玻璃集成到光子电路中可能会显著推动数据传输的速度和效率。对硫族玻璃的研究仍在不断发展，科学家们正在探索新的成分和制造方法，以进一步增强其特性。例如，通过掺杂不同的元素，可以定制其光学特性，从而为特定应用定制材料。因此，硫族玻璃的多样性使其在先进技术的持续发展中成为关键材料。总之，硫族玻璃代表了化学与技术的迷人交汇，因其独特的特性而提供广泛的应用。从红外光学到先进的存储解决方案，硫族玻璃的潜力巨大且尚未充分开发。随着研究人员继续探索其能力，我们可以期待在不久的将来看到这种非凡材料的创新用途。对硫族玻璃的持续探索无疑将为各个领域的进步做出贡献，为利用光和热的力量铺平道路。