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Jupiter Missions Could Also Help Search for Dark Matter
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Jupiter Missions Could Also Help Search for Dark Matter

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In a recent study published in the Journal of High Energy Physics, two researchers from Brown University demonstrated how data from past missions to Jupiter can help scientists examine dark matter, one of the most mysterious phenomena in the universe. The reason past Jupiter missions were chosen is due to the extensive amount of data gathered about the largest planet in the solar system, most notably from the Galileo and Juno orbiters. As stated, dark matter is one of the most mysterious phenomena in the universe.

One reason is because it’s invisible and does not emit any light. So why study it? “Because it is there and we don’t know what it is!” Dr. Lingfeng Li, a Postdoctoral Research Associate at Brown University and lead author on the paper, exclaims.

“There are strong pieces of evidence coming from very different datasets pointing to dark matter: Cosmic Microwave Background, stellar motions inside galaxies, gravitational lensing effects, and so forth. In brief, it behaves like some cold, non-interactive (therefore dark) dust at large length scales, while its nature and possible interactions within a smaller length scale are still unknown. It must be something brand new: something distinct from our baryonic matter.

” A brilliant image of Jupiter’s Great Red Spot along with its violent southern hemisphere taken by NASA’s Juno spacecraft as it passed close to the gas giant planet. (Credits: NASA/JPL-Caltech/Southwest Research Institute/Malin Space Science Systems/Kevin M. Gill) In the study, the researchers discussed how trapped electrons within Jupiter’s massive magnetic field and radiation belt can be used to examine dark matter and dark mediator that exist between what is known as the dark sector and our visible world.

They deduced three scenarios for trapped electrons within Jupiter’s radiation belts: fully trapped, quasi-trapped, and untrapped electrons. Their results showed that recorded measurements from the Galileo and Juno missions indicate produced electrons can be either fully- or quasi-trapped within the innermost radiation belts of Jupiter, ultimately contributing to energetic electron fluxes. One goal of this study was to provide an initial effort into using data from previous, active, and future mission to Jupiter to examine new physics that goes beyond the traditional model of particle physics.

While data for this study was gathered from the years-long missions of the Galileo and Juno orbiters at Jupiter, Li doesn’t think this type of study can be carried out using data from other long-term missions to other planets, such as Saturn and its historic Cassini mission. “First, Jupiter is much heavier than Saturn,” explains Li. “Its escape velocity is almost twice as large as Saturn’s, which means the dark matter capture rate is greatly enhanced at Jupiter.

In addition, Jupiter doesn’t have a significant main ring, and electrons can be trapped for a long time before being absorbed by the ring materials. Other celestial bodies in the solar systems are simply too small (e. g.

, Earth). The Sun is a very interesting target, but its magnetic field is highly-nontrivial. We don’t know how to interpret the solar data yet, but it is worth further consideration.

” While Li said they haven’t decided what to do next in terms of future studies, the paper concludes with recommendations for future Jupiter missions to expand the scope of particle physics while also providing more exact measurements of the energetic electron fluxes discussed in this paper. What new discoveries will we make about dark matter in the coming years? Only time will tell, and this is why we science! As always, keep dong science & keep looking up! The post Jupiter Missions Could Also Help Search for Dark Matter appeared first on Universe Today. .


From: universetoday
URL: https://www.universetoday.com/157038/jupiter-missions-could-also-help-search-for-dark-matter/

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