airborne magnetometer

简明释义

1. 航空磁力仪; 2. 航空磁强计;

英英释义

例句

1.In military applications, an airborne magnetometer can be used to locate submerged submarines.

在军事应用中，空中磁力计可用于定位水下潜艇。

2.The airborne magnetometer helped identify potential locations for oil exploration.

这个空中磁力计帮助识别出潜在的石油勘探位置。

3.The geological survey team deployed an airborne magnetometer to map the magnetic anomalies in the area.

地质勘测团队部署了一个空中磁力计来绘制该地区的磁异常图。

4.Using an airborne magnetometer, researchers can detect mineral deposits hidden beneath the surface.

研究人员使用空中磁力计可以探测隐藏在地表下的矿藏。

5.The data collected by the airborne magnetometer was crucial for understanding the geological history of the region.

由空中磁力计收集的数据对理解该地区的地质历史至关重要。

作文

The technological advancements in geophysical exploration have significantly changed the way we understand and utilize the Earth's resources. One of the most innovative tools in this field is the airborne magnetometer, which plays a crucial role in mapping the magnetic properties of the Earth’s crust. This instrument is mounted on aircraft, allowing for rapid and extensive surveys over large areas that would be both time-consuming and expensive to cover on foot or by land vehicles.An airborne magnetometer is designed to measure variations in the Earth's magnetic field caused by the presence of different minerals and geological structures beneath the surface. By detecting these variations, geologists can infer the composition of the subsurface materials, which is essential for mineral exploration, oil and gas prospecting, and environmental studies. The data collected by an airborne magnetometer can help identify potential sites for resource extraction, making it a vital tool in the mining and energy sectors.The operation of an airborne magnetometer involves flying at low altitudes above the terrain, typically around 100 to 300 meters. As the aircraft flies, the magnetometer continuously records the magnetic field strength and variations in real-time. These readings are then processed and analyzed using sophisticated software to create detailed maps that display the magnetic anomalies in the surveyed area. The efficiency of this method allows for comprehensive surveys to be conducted in a fraction of the time it would take to perform ground-based measurements.Moreover, the use of an airborne magnetometer is not limited to resource exploration. It is also employed in archaeological investigations, where it helps locate buried structures or artifacts by identifying disturbances in the magnetic field caused by human activity. This application highlights the versatility of the airborne magnetometer in various fields of study, demonstrating its importance beyond just resource extraction.In addition to its practical applications, the airborne magnetometer contributes to scientific research by enhancing our understanding of the Earth's geology. By analyzing magnetic data, researchers can gain insights into tectonic movements, volcanic activity, and the formation of geological features. This information is invaluable for predicting natural disasters and understanding the Earth's history.As technology continues to evolve, the capabilities of the airborne magnetometer are expected to improve. Innovations such as enhanced sensitivity, miniaturization of components, and integration with other geophysical methods will likely lead to even more accurate and efficient surveys. The future of geological exploration will undoubtedly benefit from the ongoing development of this remarkable instrument.In conclusion, the airborne magnetometer is an indispensable tool in modern geophysical exploration. Its ability to rapidly collect and analyze magnetic data from the air has transformed how we explore and understand the Earth's resources. From mineral and energy exploration to archaeological research, the applications of the airborne magnetometer are vast and varied. As we look forward to future advancements, it is clear that this technology will continue to play a pivotal role in our exploration of the planet's subsurface mysteries.

地球物理勘探中的技术进步显著改变了我们理解和利用地球资源的方式。在这个领域中，airborne magnetometer（空中磁力仪）是最具创新性的工具之一，它在绘制地球地壳的磁性特征方面起着至关重要的作用。该仪器安装在飞机上，能够快速而广泛地对大面积区域进行调查，这在步行或陆地车辆覆盖时将既耗时又昂贵。airborne magnetometer（空中磁力仪）旨在测量由于地下不同矿物和地质结构的存在而导致的地球磁场变化。通过检测这些变化，地质学家可以推断出地下材料的组成，这对于矿产勘探、石油和天然气勘探以及环境研究至关重要。由airborne magnetometer（空中磁力仪）收集的数据可以帮助识别潜在的资源开采地点，使其成为采矿和能源行业的重要工具。airborne magnetometer（空中磁力仪）的操作涉及在地形上空低空飞行，通常在100到300米之间。当飞机飞行时，磁力仪持续实时记录磁场强度和变化。这些读数随后使用复杂的软件处理和分析，以创建详细的地图，显示被调查区域的磁异常。这种方法的高效性使得全面调查能够在进行地面测量所需时间的一小部分内完成。此外，airborne magnetometer（空中磁力仪）的使用不限于资源勘探。它还被用于考古调查，通过识别因人类活动造成的磁场扰动来帮助定位埋藏的结构或文物。这一应用突显了airborne magnetometer（空中磁力仪）在各个研究领域的多功能性，展示了它在资源开采之外的重要性。除了其实际应用，airborne magnetometer（空中磁力仪）通过增强我们对地球地质的理解，为科学研究作出了贡献。通过分析磁数据，研究人员可以深入了解构造运动、火山活动和地质特征的形成。这些信息对于预测自然灾害和理解地球历史至关重要。随着技术的不断发展，airborne magnetometer（空中磁力仪）的能力预计将得到改善。灵敏度的提高、组件的小型化以及与其他地球物理方法的集成等创新，可能会导致更准确和高效的调查。地质勘探的未来无疑将受益于这一卓越仪器的持续发展。总之，airborne magnetometer（空中磁力仪）是现代地球物理勘探中不可或缺的工具。它从空中快速收集和分析磁数据的能力改变了我们探索和理解地球资源的方式。从矿产和能源勘探到考古研究，airborne magnetometer（空中磁力仪）的应用范围广泛且多样。展望未来的进步，可以清楚地看出，这项技术将继续在我们探索地球地下奥秘的过程中发挥关键作用。