What is Earth’s magnetosphere?
Enveloping our planet and protecting us from the wrath of the sun is a giant magnetic bubble called the magnetosphere. It deflects most of the solar material that rushes toward us from our star at more than 1 million miles per hour. Without the magnetosphere, the relentless activity of these solar particles could strip Earth of the protective layer that protects us from the sun’s ultraviolet rays. It is clear that this magnetic bubble was the key to the development of Earth into a habitable planet.
The magnetosphere envelops our planet and protects us from the brunt of the sun, and is key to Earth’s development into a habitable planet. credit: NASA
Earth vs. Mars: The role of the magnetosphere
compare with earth Mars – A planet that lost its magnetosphere about 4.2 billion years ago. It is thought that solar winds stripped away most of Mars’ atmosphere, probably after the Red Planet’s magnetic field disappeared. As a result, Mars is the desolate, barren world we see today through the “eyes” of NASA’s orbiters and probes. In contrast, Earth’s magnetosphere appears to continue to protect the atmosphere.
“If we didn’t have the magnetic field, we might be left with a completely different atmosphere, devoid of life as we know it,” said Eftihir Zesta of NASA’s Goddard Space Flight Center’s Geospace Physics Laboratory. states.
Understanding and researching the magnetosphere
Understanding the magnetosphere is a key element in helping scientists predict space weather that could one day impact technology on Earth. Extreme space weather events can disrupt communication networks. GPS Navigation and power grids.
The magnetosphere is a permeable shield. The solar wind periodically connects to the magnetosphere and forces its reconfiguration. This can cause cracks and allow energy to flow into our safe haven. These cracks open and close many times a day, sometimes even an hour. Most of them are small and short-lived. Others are vast and persistent. When the sun’s magnetic field connects with the Earth’s magnetic field, fireworks begin.
“Earth’s magnetosphere absorbs incoming energy from the solar wind and releases it in bursts in the form of magnetic storms and substorms,” ​​Zesta said.
Magnetic Reconnection and MMS Mission
How does this happen? Magnetic field lines converge and rearrange, resulting in magnetic energy and charged particles flying around at breakneck speeds. Scientists have been trying to understand why this crossing of magnetic field lines, called magnetic reconnection, causes such violent explosions and opens cracks in the magnetosphere.
NASA’s Magnetospheric Multiscale Mission (MMS) launched in March 2015 to make the first observations of the electronic physics of magnetic reconnection. Four of her MMS spacecraft, packed with high-energy particle detectors and magnetic sensors, flew close to the region on the surface of Earth’s magnetosphere where magnetic reconnection occurs. Since then, MMS has conducted similar searches in the magnetotail.
MMS complements the missions of NASA and partner agencies such as THEMIS, Cluster, and Geotail, and will provide important new details for ongoing studies of Earth’s magnetosphere. The data obtained from these surveys not only helps us understand the fundamental physics of the universe, but also helps improve space weather forecasting.
Source: scitechdaily.com