Using a new technique based on magnetic wave analysis, scientists have for the first time discovered lithium in the mercury environment. Published in Nature Communication, this study creates the first detection of lithium around the smallest planet in our solar system. Unlike the mercury of mercury, unlike the thick environment, the thin shell of the particles that forms Mercury’s ecoprilion can make direct ways to find the direct ways to find. Instead of searching for atoms, scientists analyzed the pickup -ion cycloton waves. An electromagnetic fingerprint is left behind when the solar air communicates with fresh ionized lithium. These unconscious gestures finally confirmed the long speculation of lithium.
Messenger data shows lithium signs from Mercury Ecosfire in Mercury Ecosfire
According to the Austrian Academy of Sciences, Research The team, led by Daniel Smud, reviewed the magnetic field data collected by NASA’s Messenger spacecraft. Twelve short life events-only minutes only minutes explained the signatures of these lithium-related wave.
Waves arise when solar ultra -violet radiation izes lithium atoms, and temporary lithium air blew up ionized atoms, which increases the pace of the formation of electromagnetic instability. This turmoil attracts the second to the same cyclophage frequency, which is deployed on a large and charging of lithium (as it is indirectly identified by magnetic measurement).
Lithium Finding has been difficult, because the rare alkali metal is thinly scattered. Traditional particle detectors cannot directly occupy the marinar 10 and Messenger. The most potential candidates are metoride effects, which causes clouds of hot vapor in the collision and throwing lithium into the expire.
According to a study linked to the events associated with the metoride strikes by 13-21 cm in the radius, the mercury levels are constantly filled by the extracurrical bombing. This rapid collision can cause up to 150 times their own vapor, which can provide the environment with lithium -like fluctuations.
Schmid’s study reveals that such processes can also calculate or achieve the elements of fluctuations in other stupid bodies, which will change our understanding of the geo -chemical story of the mercury and open new steps in search of the expire.