NASA Detects The Strongest Light From Jupiter

Using the NuSTAR telescope, which NASA launched into space in 2012, it was the first time that something came out of the black hole. Years have passed since this detected image, and this time a Jupiter image came from the NuSTAR telescope, illuminating the 30-year-old mystery.

The mystery of the aurora around Jupiter, the largest planet in the Solar System, was recently solved with the help of the Hubble Space Telescope. This time, the highest-energy X-rays determined to come from Jupiter by the NuSTAR Space Telescope were imaged.

It turned out why it could not be viewed 30 years ago

Image acquired by NASA’s NuSTAR Space Telescope has never been seen on a planet other than Earth. highest energy light recorded as. This high-energy X-ray radiation is simultaneously detected by light. 30 years of mystery has also been resolved. The Ulysses spacecraft, which NASA sent to study the Sun in 1992, failed to detect any X-rays as it passed near Jupiter. The researchers say this is because X-rays become dimmer at higher energies and that Ulysses’ system will detect these rays He thinks it’s because he doesn’t have a system.

The presence of X-rays around the planet has been detected in previous studies. Low-energy X-rays were observed to be emitted from the planet’s auroras by NASA’s Chandra and XMM-Newton observatories, but there was no evidence of such high energy. With the new observation from NuSTAR, the researchers show that electrons from Jupiter’s volcanic moon Io create high-energy X-rays. confirmed for the first time.

Kaya Mori, an astrophysicist at Columbia University and lead author on the study, said in a statement, “It’s very difficult for planets to produce X-rays in the range detected by NuSTAR, but Jupiter has an enormous magnetic field and it spins very fast. These two features mean that the planet’s magnetosphere acts like a giant particle accelerator. More high energy emissions This is what makes it possible,” he said.