radiation window

简明释义

辐射窗

英英释义

例句

1.In astrophysics, understanding the radiation window 辐射窗口 allows scientists to analyze cosmic phenomena more effectively.

在天体物理学中，理解辐射窗口 辐射窗口使科学家能够更有效地分析宇宙现象。

2.The radiation window 辐射窗口 for ultraviolet light is important for studying biological effects.

紫外光的辐射窗口 辐射窗口对研究生物效应非常重要。

3.Researchers are studying how different materials respond to radiation in the radiation window 辐射窗口 to improve safety standards.

研究人员正在研究不同材料在辐射窗口 辐射窗口内对辐射的反应，以提高安全标准。

4.The radiation window 辐射窗口 for infrared light is crucial for thermal imaging applications.

红外光的辐射窗口 辐射窗口对于热成像应用至关重要。

5.The satellite's sensors are designed to detect signals within the radiation window 辐射窗口 of the electromagnetic spectrum.

卫星的传感器旨在检测电磁波谱中的辐射窗口 辐射窗口内的信号。

作文

The concept of the radiation window plays a crucial role in various fields, particularly in astronomy and environmental science. A radiation window refers to a specific range of wavelengths in the electromagnetic spectrum where radiation can pass through a medium, such as the Earth's atmosphere, with minimal absorption or scattering. This phenomenon is significant because it allows astronomers to observe celestial objects without interference from atmospheric particles. For instance, certain wavelengths in the infrared range are absorbed by water vapor in the atmosphere, while others, like those in the visible spectrum, can penetrate more effectively. Understanding these windows enables scientists to design instruments that can capture data from space more accurately.In environmental science, the radiation window concept is equally important. It helps researchers understand how different materials interact with solar radiation. For example, certain surfaces on Earth, like ice and snow, have different radiation windows compared to darker surfaces like forests or oceans. These differences affect the Earth’s energy balance and climate. When sunlight hits the Earth, some of it is absorbed, while other wavelengths are reflected back into space. The radiation window is critical in determining which wavelengths are retained and which are lost, influencing local and global temperatures.Moreover, the radiation window has implications for climate change research. As greenhouse gases accumulate in the atmosphere, they can alter the radiation windows by trapping certain wavelengths of infrared radiation that would otherwise escape into space. This process contributes to the greenhouse effect, leading to global warming. Scientists study these changes to predict future climate scenarios and develop strategies for mitigation.In conclusion, the radiation window is a fundamental concept that bridges various scientific disciplines. Its implications stretch from the observation of distant galaxies to understanding the Earth’s climate system. By exploring how different materials interact with radiation, researchers can gain insights into both cosmic phenomena and terrestrial processes. The study of radiation windows continues to be an essential area of research as we seek to unravel the complexities of our universe and address pressing environmental issues. Understanding this concept not only enhances our knowledge of physics and astronomy but also equips us with the tools needed to tackle challenges related to climate change and environmental sustainability.

“辐射窗口”的概念在各个领域中发挥着至关重要的作用，尤其是在天文学和环境科学中。“辐射窗口”指的是电磁波谱中某一特定波长范围，在该范围内，辐射可以通过介质（如地球大气）而几乎不被吸收或散射。这一现象非常重要，因为它使天文学家能够观察天体而不受大气颗粒的干扰。例如，红外范围内的某些波长会被水蒸气吸收，而可见光谱中的其他波长则能更有效地穿透。理解这些窗口使科学家能够设计出能够更准确捕捉来自太空数据的仪器。在环境科学中，“辐射窗口”的概念同样重要。它帮助研究人员理解不同材料如何与太阳辐射相互作用。例如，地球上的某些表面，如冰雪，与森林或海洋等较暗表面的“辐射窗口”不同。这些差异影响地球的能量平衡和气候。当阳光照射到地球时，其中一些被吸收，而其他波长则反射回太空。“辐射窗口”对于确定哪些波长被保留、哪些被丢失至关重要，这影响了局部和全球温度。此外，“辐射窗口”对气候变化研究也有重要影响。随着温室气体在大气中的积累，它们可以通过捕获本来会逃逸到太空的某些红外辐射波长来改变“辐射窗口”。这一过程助长了温室效应，导致全球变暖。科学家们研究这些变化，以预测未来的气候情景并制定减缓策略。总之，“辐射窗口”是一个基本概念，它连接了各种科学学科。它的影响从观察遥远星系到理解地球气候系统。通过探索不同材料如何与辐射相互作用，研究人员可以获得关于宇宙现象和地球过程的见解。“辐射窗口”的研究仍然是一个重要的研究领域，因为我们试图揭开宇宙的复杂性，并解决紧迫的环境问题。理解这一概念不仅增强了我们对物理和天文学的认识，还为我们提供了解决与气候变化和环境可持续性相关的挑战所需的工具。