airglow emission height

简明释义

气辉发射高度;

英英释义

例句

1.Astronomers often consider the airglow emission height 大气辉光发射高度 when planning observations.

天文学家在计划观测时常常考虑大气辉光发射高度。

2.The airglow emission height 大气辉光发射高度 varies with solar activity and atmospheric conditions.

由于太阳活动和大气条件的变化，大气辉光发射高度会有所不同。

3.Understanding the airglow emission height 大气辉光发射高度 is crucial for satellite communication.

理解大气辉光发射高度对于卫星通信至关重要。

4.The study focused on the effects of pollution on the airglow emission height 大气辉光发射高度 in urban areas.

该研究集中于污染对城市地区大气辉光发射高度的影响。

5.The researchers measured the airglow emission height 大气辉光发射高度 during their atmospheric studies.

研究人员在进行大气研究时测量了大气辉光发射高度。

作文

The study of atmospheric phenomena has always fascinated scientists and researchers. Among these phenomena, the concept of airglow emission height plays a significant role in understanding the dynamics of the Earth's atmosphere. airglow emission height refers to the altitude at which the natural light emitted by the atmosphere is most intense, typically occurring between 80 to 100 kilometers above the Earth's surface. This emission is primarily caused by the chemical reactions of various atmospheric constituents, including oxygen and nitrogen, under the influence of solar radiation. Airglow is not only a beautiful spectacle but also an essential indicator of atmospheric conditions. It provides insights into processes such as photochemistry and energy transfer within the upper atmosphere. The airglow emission height can vary depending on several factors, including solar activity, seasonal changes, and geographical location. For instance, during periods of high solar activity, the intensity and height of airglow emissions can increase significantly, leading to more vivid displays in the night sky. Understanding the airglow emission height is crucial for various scientific applications, including satellite communication and navigation systems. As satellites orbit the Earth, they must account for the effects of atmospheric emissions to maintain accurate positioning and data transmission. Researchers utilize ground-based observations and satellite measurements to monitor the variations in airglow emissions, helping to refine models that predict atmospheric behavior. Moreover, studying the airglow emission height can enhance our knowledge of climate change and its impact on the atmosphere. Changes in emission patterns may indicate shifts in atmospheric composition or temperature, providing valuable data for climate models. By analyzing these emissions over time, scientists can identify trends and make predictions about future atmospheric conditions. In addition to its scientific significance, the airglow emission height also captures the imagination of amateur astronomers and sky watchers. Many people are drawn to the beauty of airglow, often mistaken for auroras or other celestial events. Understanding the science behind this phenomenon enriches the experience of observing the night sky, as enthusiasts can appreciate the intricate processes that lead to the stunning displays of light. In conclusion, the airglow emission height is a fascinating topic that encapsulates the intersection of science, technology, and natural beauty. Its study not only enhances our understanding of atmospheric dynamics but also contributes to practical applications in communication and navigation. As we continue to explore the mysteries of our atmosphere, the airglow emission height will undoubtedly remain a key area of research, revealing more about the intricate workings of our planet's upper layers.

大气现象的研究一直吸引着科学家和研究人员。在这些现象中，airglow emission height 的概念在理解地球大气的动态方面发挥着重要作用。airglow emission height 指的是大气自然光发射最强烈的高度，通常发生在离地球表面80到100公里之间。这种发射主要是由氧气和氮气等各种大气成分在太阳辐射的影响下发生的化学反应引起的。空气发光不仅是一种美丽的景象，而且是大气条件的重要指示器。它提供了关于光化学和上层大气内能量转移过程的见解。airglow emission height 可以根据多种因素变化，包括太阳活动、季节变化和地理位置。例如，在高太阳活动期间，空气发光的强度和高度可能显著增加，导致夜空中出现更生动的展示。理解 airglow emission height 对于各种科学应用至关重要，包括卫星通信和导航系统。当卫星环绕地球轨道时，它们必须考虑大气发射的影响，以保持准确的位置和数据传输。研究人员利用地面观测和卫星测量来监测空气发光的变化，帮助完善预测大气行为的模型。此外，研究 airglow emission height 可以增强我们对气候变化及其对大气影响的认识。发射模式的变化可能表明大气成分或温度的变化，为气候模型提供有价值的数据。通过分析这些发射随时间的变化，科学家可以识别趋势并做出关于未来大气条件的预测。除了科学意义外，airglow emission height 还吸引了业余天文学家和观星者的想象力。许多人被空气发光的美所吸引，常常将其误认为极光或其他天体事件。了解这一现象背后的科学丰富了观察夜空的体验，因为爱好者可以欣赏到导致绚丽光芒展示的复杂过程。总之，airglow emission height 是一个迷人的话题，体现了科学、技术和自然美的交汇点。它的研究不仅增强了我们对大气动态的理解，还为通信和导航中的实际应用作出了贡献。随着我们继续探索大气的奥秘，airglow emission height 无疑将仍然是一个关键的研究领域，揭示更多关于我们星球上层结构的复杂运作。