electrojet

简明释义

英[ɪˈlektrəʊˌdʒet]美[ɪˈlektrəˌdʒet]

n. 电喷流

英英释义

单词用法

同义词

反义词

例句

1.For specific square wave modulation modes and typical ionospheric conditions, oscillations process of ionospheric conductivity and electrojet are studied in details.

对于特定的方波调制模式和典型的电离层条件下，振荡过程中电离层的导电性和电喷详细地研究。

2.For specific square wave modulation modes and typical ionospheric conditions, oscillations process of ionospheric conductivity and electrojet are studied in details.

对于特定的方波调制模式和典型的电离层条件下，振荡过程中电离层的导电性和电喷详细地研究。

3.In terms of magneto-ionic theory, a self-consistent model of ionospheric electrojet artificially modulated by powerful HF radio waves is presented.

磁离子理论，自洽的人工调制强大的HF无线电波电离层的电喷模型。

4.The scientists studied the behavior of the electrojet 电流束 during solar storms to understand its impact on communication systems.

科学家们研究了太阳风暴期间的electrojet 电流束行为，以了解其对通信系统的影响。

5.During the summer months, the electrojet 电流束 can become significantly stronger, affecting satellite operations.

在夏季，electrojet 电流束可能会变得显著更强，从而影响卫星操作。

6.Researchers have developed models to predict the fluctuations in the electrojet 电流束 caused by geomagnetic storms.

研究人员开发了模型，以预测由地磁风暴引起的electrojet 电流束波动。

7.The interaction between the Earth's magnetic field and the electrojet 电流束 creates beautiful auroras.

地球磁场与electrojet 电流束之间的相互作用产生了美丽的极光。

8.Engineers must account for the effects of the electrojet 电流束 when designing navigation systems for aircraft.

工程师在为飞机设计导航系统时，必须考虑electrojet 电流束的影响。

作文

The Earth is surrounded by a complex array of magnetic and electric fields that play a crucial role in our planet's atmosphere and space weather. One fascinating phenomenon associated with these fields is the electrojet, which refers to a current of charged particles that flows through the ionosphere, particularly at high latitudes. Understanding the electrojet is essential for several reasons, including its impact on communications, navigation systems, and even climate patterns. The electrojet typically occurs during geomagnetic storms when solar wind interacts with the Earth's magnetosphere. This interaction can lead to an increase in the density of charged particles in the ionosphere, resulting in a significant flow of electric currents. These currents can reach velocities of up to several kilometers per second, creating a dynamic environment in the upper atmosphere. One of the most well-known types of electrojet is the auroral electrojet, which is closely associated with the auroras seen in polar regions. When solar particles collide with the gases in the Earth's atmosphere, they produce beautiful displays of light known as the Northern and Southern Lights. The electrojet contributes to these phenomena by enhancing the electric fields that accelerate the charged particles responsible for the auroras. Moreover, the electrojet has significant implications for communication technologies. Radio waves used in long-distance communication can be affected by the currents within the ionosphere. During periods of heightened electrojet activity, signals may experience alterations, leading to disruptions or enhancements in radio transmission. This is particularly important for military operations and aviation, where reliable communication is critical. In addition to its effects on communication, the electrojet also influences navigation systems that rely on satellite technology. GPS signals can be distorted due to fluctuations in the ionosphere caused by the electrojet. As these currents change, they can introduce errors into positioning data, which can be problematic for users who depend on precise location information. Furthermore, scientists are increasingly interested in the relationship between the electrojet and climate change. Some studies suggest that variations in the electrojet may influence weather patterns by affecting atmospheric circulation. While this area of research is still developing, understanding the connections between solar activity, the electrojet, and terrestrial weather could provide valuable insights into our changing climate. In conclusion, the electrojet is a remarkable aspect of Earth's ionosphere that has far-reaching effects on various aspects of our lives. From influencing communication and navigation systems to potentially impacting climate patterns, the electrojet is a vital component of the intricate interplay between the Earth's magnetic field and solar activity. As we continue to explore the universe and improve our technological capabilities, a deeper understanding of the electrojet will undoubtedly enhance our ability to navigate both the physical and technological landscapes of our world.

地球被一系列复杂的磁场和电场所包围，这些场在我们星球的大气层和空间天气中发挥着至关重要的作用。其中一个引人入胜的现象是电流层，它指的是一种带电粒子流动的电流，主要发生在高纬度地区的电离层。理解电流层至关重要，原因有几个，包括它对通信、导航系统甚至气候模式的影响。 通常情况下，电流层在地磁风暴期间发生，当太阳风与地球的磁层相互作用时。这种相互作用可能导致电离层中带电粒子的密度增加，从而形成显著的电流流动。这些电流的速度可达到每秒几公里，在上层大气中创造出动态的环境。 最著名的电流层之一是极光电流层，它与极地地区看到的极光密切相关。当太阳粒子与地球大气中的气体碰撞时，会产生美丽的光线显示，称为北极光和南极光。电流层通过增强加速负责极光的带电粒子的电场，促进了这些现象的发生。 此外，电流层对通信技术具有重要影响。用于远程通信的无线电波可能会受到电离层内电流的影响。在电流层活动增强的时期，信号可能会发生变化，导致无线电传输的中断或增强。这对于军事行动和航空尤其重要，因为可靠的通信至关重要。 除了对通信的影响外，依赖卫星技术的导航系统也受到电流层的影响。由于电流层引起的电离层波动，GPS信号可能会失真。随着这些电流的变化，它们可能会引入定位数据中的误差，这对依赖精确位置信息的用户来说是个问题。 此外，科学家们越来越关注电流层与气候变化之间的关系。一些研究表明，电流层的变化可能通过影响大气环流来影响天气模式。尽管这一研究领域仍在发展中，但理解太阳活动、电流层和地球天气之间的联系可能为我们不断变化的气候提供有价值的见解。 总之，电流层是地球电离层的一个显著方面，对我们生活的各个方面产生深远影响。从影响通信和导航系统到潜在影响气候模式，电流层是地球磁场与太阳活动之间复杂相互作用的重要组成部分。随着我们继续探索宇宙并改善我们的技术能力，更深入地理解电流层无疑将增强我们在物理和技术领域的导航能力。