Scientists at UC San Diego and the Brookhaven Laboratory in New York have discovered superconductivity in meteorites.
After analyzing 15 pieces of comets and asteroids the researchers found two meteorites with superconductive grains, dubbed “Mundrabilla” and “GRA 95205.” This is the first time that extraterrestrial superconductive grains have been identified.
Meteorites have a wide range of “material phases” from the oldest states of the solar system, researchers say. In a statement, naturally occurring superconductive materials are described by UC San Diego researcher James Wampler as unusual, but significant because they could be superconducting in extraterrestrial environments.
In the paper, scientists characterize the meteorites’ material phases as alloys of lead, tin and indium, which is the softest non-alkali metal. The research was undertaken by UC San Diego researchers Mark Thiemens, Ivan Schuller and the paper’s first author Wampler, along with Brookhaven Lab’s Shaobo Cheng and Yimei Zhu
The findings could boost our knowledge of a number of astronomical environments, according to the researchers. Superconducting particles in cold environments could affect planet formation, shape and origin of magnetic fields, dynamo effects, motion of charged particles, they say.
A small chunk of an asteroid or comet is also known as a meteoroid. When it enters Earth’s atmosphere, it becomes a meteor or fireball or shooting star. The pieces of rock that hit the ground, valuable to collectors, are meteorites.
The Associated Press contributed to this article.
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