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In a groundbreaking discovery, scientists from Beihang University in China have detected a phenomenon typically associated with Earth’s magnetic field 100,000 kilometres (62,000 miles) beyond our planet.
This unexpected finding has sparked excitement in the scientific community, raising new questions about the behaviour of electromagnetic waves in space.
The discovery came through data analysis collected by NASA’s Magnetospheric Multiscale (MMS) satellites, designed to study the Earth’s magnetosphere. The scientists identified what are known as ‘chorus waves’—bursts of electromagnetic radiation that travel along Earth’s magnetic field lines.
These waves, often called “chirps” due to their distinctive frequency, are usually detected in Earth’s vicinity, but this study marks the first time they’ve been observed at such a great distance.
Although the phenomenon is called “chirping”, the sound itself is not audible in space, as there is no air to carry sound waves. The ‘chirps’ result from scientists converting these electromagnetic signals into audio for analysis.
Despite their somewhat whimsical name, chorus waves are far from unusual. These waves are commonly found within the Earth’s magnetosphere, where they help accelerate electrons to speeds approaching that of light, contributing to the formation of Earth’s protective radiation belts.
These radiation belts are crucial in shielding Earth from harmful high-energy particles emanating from the Sun. At the same time, the energetic electrons that create beautiful auroras like the Northern Lights can also pose a significant threat to space infrastructure. These high-speed electrons are often dubbed “killer electrons” because they have the potential to damage satellites, disrupt communication systems, and pose health risks to astronauts.
Typically, chorus waves are observed around 51,000 kilometres (32,000 miles) from Earth, where the magnetic field behaves in a predictable dipole pattern—much like a bar magnet. However, in this study, published in Nature, the chorus waves were detected much farther from Earth, at a remarkable 165,000 kilometres (103,000 miles) away. Earth’s magnetic field is heavily distorted at this distance, with no clear dipolar effect. This is what makes the detection so intriguing.
The waves detected at this extreme distance share similar characteristics to those found closer to Earth, with bursts that last about 0.1 seconds and oscillate at about 100 Hz, similar to the rumble of a car engine. This discovery suggests that these waves can form even in regions where Earth’s magnetic field is not functioning in its typical dipolar pattern—challenging previous assumptions that they required the planet’s specific environmental conditions.
“The discovery doesn’t rule out the existing theory that chorus waves rely on Earth’s magnetic field,” Professor Richard Horne, head of space weather at the British Antarctic Survey, who was not involved in the study, told BBC Science Focus. “However, it does suggest that scientists need to reassess how these waves function and how they form in regions where the magnetic field deviates significantly from a dipole.”
This finding has significant implications for the study of space weather. While chorus waves play a crucial role in protecting Earth from solar storms, they can also contribute to the aforementioned “killer electrons” that damage space infrastructure. Understanding how these waves propagate and behave in different regions of space could improve predictions of solar storms, providing crucial information for safeguarding satellites and communication systems.
As space exploration and technology continue to evolve, the most recent discovery highlights the complexity of space weather and its potential impacts. The research opens up new avenues for studying the behaviour of electromagnetic waves beyond Earth’s magnetosphere, offering a deeper understanding of the forces shaping our space environment.
In the coming years, scientists will likely continue to study these waves to refine space weather forecasts and better protect technology vital to modern society.
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