Northern and southern lights are one of the most incredible spectacles we see on Earth, but Jupiter may give them a run for their money. The gas giant has auroras as well, but they are significantly larger and cover an area much bigger than Earth. They are also 100 times more energetic than what we see here at high latitudes.
In fact, they are so
energetic that they shine in the ultraviolet. And, using the Hubble Space
Telescope, astronomers have captured new images of this incredible spectacle of
glowing lights. These observations, in combination with data from the Juno
probe (which arrives at Jupiter next week), will allow scientists to better
understand how the magnetic field of the planet interacts with the auroras.
“These auroras are very
dramatic and among the most active I have ever seen,” said the University of
Leicester's Jonathan Nichols, principal investigator of the study describing
the findings, in a statement. “It almost seems as if Jupiter is throwing a
firework party for the imminent arrival of Juno.”
Auroras are caused by
charged particles, mostly electrons and protons, from the solar wind hitting
the upper atmosphere.
This process then leads to the
ionization and the excitation of high-altitude gasses that emit the lights of different
colors depending on the gas and the energy of the impact.
Jupiter's magentic field
(20,000 times stronger than Earth's) accelerates charged particles towards the
poles, and there they slam into the atmosphere, emitting ultraviolet light. In
the timelapse videos, the auroras are seem circling the planet's north pole,
rising and waning, changing shape, and in general reflecting the complex
magnetic enviroment that surrounds Jupiter.
The Jovian auroras were
first discovered in 1979 by NASA’s Voyager 1. The probe saw a thin ring of light
on Jupiter’s night side that was remarkably similar, although stretched out, to
Earth’s own auroras. Later, it was realized that their peak luminosity is in
the ultraviolet.
Since then, Jupiter’s polar
lights have intrigued astronomers, with Hubble now observing the gas giant on a
daily basis to highlight the changes in the system.
Size and intensity are not
the only differences between terrestrial and Jovian auroras. On Jupiter, the
auroras rise and wane but they never stop. That’s because unlike Earth, the
auroras are produced by more than just the solar wind from the Sun. Jupiter has
such a strong magnetic field that it traps not just the stream of electrons and
protons from the Sun, but also the material spewed into space by its active
moon Io.
Hubble’s observations are
ongoing, and the analysis, combined with Juno data, will take several more
months. Hopefully, we will soon unlock the secrets of the Solar System’s best
auroras.
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Hubble's latest snapshots of Jupiter's auroras are nothing short of breathtaking, revealing the gas giant in a mesmerizing dance of light and color. And for those balancing their passion for astronomy with academic responsibilities, consider exploring the wonders of the cosmos without the stress of looming deadlines. If you're in need of assistance, a cheap paper writing service is a convenient solution for ensuring your academic success.
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