NASA spacecraft documents how Jupiter's lightning resembles Earth's
Send a link to a friend
 [May 25, 2023]
By Will Dunham
WASHINGTON (Reuters) - Hidden below the brownish ammonia clouds
blanketing Jupiter are clouds that like on Earth are made of water. And
like on Earth, lightning often is generated within these clouds - an
eerie sight spotted by various spacecraft that have visited our solar
system's largest planet, including NASA's Juno probe.
Data obtained by Juno is providing fresh information on how the
lightning processes on Jupiter are similar to those on Earth despite the
dramatic differences between the two planets, according to scientists.
Earth is a relatively small rocky world. Jupiter, whose namesake ancient
Roman god flung lightning bolts, is a gas giant so immense that all the
other planets in our solar system could neatly fit inside it - including
more than 1,300 Earths.
Tapping into five years of high-resolution data acquired by Juno's radio
receiver as the spacecraft orbits Jupiter, the researchers found that
the planet's lightning initiation processes pulsate with a similar
rhythm to that observed inside clouds on our planet. The pulses observed
on Jupiter as flashes of lightning were initiated with time separations
of about a millisecond, similar to thunderstorms on Earth.
Lightning is the most powerful naturally occurring electrical source on
Earth.
"Lightning is an electric discharge which is initiated inside
thunderclouds. The ice and water particles inside the cloud get charged
by collisions and form layers of particles with the charge of the same
polarity," said planetary scientist Ivana Kolmasova of the Czech Academy
of Sciences' Institute of Atmospheric Physics in Prague, lead author of
the study published this week in the journal Nature Communications.
"By this process, a huge electric field is established and the discharge
can be initiated. This explanation is somewhat simplified because
scientists are still not completely sure what is exactly happening
inside thunderclouds," Kolmasova added.
The existence of lightning on Jupiter was confirmed when telltale radio
emissions at audible frequencies were recorded in 1979 by NASA's Voyager
1 spacecraft as it ventured through the solar system.
The solar system's other gas planets - Saturn, Uranus and Neptune - also
have been shown to have lightning. There is some evidence for lightning
in the clouds of the rocky planet Venus, though it is still a matter of
debate.
[to top of second column]
|
This artist's concept of lightning
distribution in Jupiter's northern hemisphere incorporates a JunoCam
image from the NASA spacecraft Juno with artistic embellishments.
Data from NASA's Juno mission indicates that most of the lightning
activity on Jupiter is near its poles. Courtesy of NASA/JPL-Caltech/SwRI/JunoCam/Handout
via REUTERS
Other studies have detailed other similarities in the lightning
processes on Jupiter and Earth. For instance, lightning rates on the
two planets are similar though the distribution of lightning on
Jupiter differs from Earth.
"On Earth, the tropical regions are the most active ones. The
majority of Jovian lightning occurs in mid-latitudes and also in
polar regions. We have nearly no lightning activity close to the
poles on the Earth. It means that conditions for the formation of
Jovian and terrestrial thunderclouds are probably very different,"
Kolmasova said.
"There were some attempts to compare the power of lightning based on
optical measurements and it was concluded that lightning on Jupiter
might be comparable with the strongest terrestrial lightning,"
Kolmasova added, while noting that more analysis is planned.
Jupiter is composed primarily of hydrogen and helium, with traces of
other gases. Stripes and a few storms dominate the colorful
appearance of Jupiter, the fifth planet from the sun with a diameter
of about 88,850 miles (143,000 km).
Juno has been orbiting Jupiter since 2016, obtaining information
about its atmosphere, interior structure, internal magnetic field
and the region around it created by its internal magnetism.
(Reporting by Will Dunham, Editing by Rosalba O'Brien)
[© 2023 Thomson Reuters. All rights
reserved.]This material may not be published,
broadcast, rewritten or redistributed.
Thompson Reuters is solely responsible for this content.
 |
