Gigantic Jupiter-like alien planet observed still 'in the womb'
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 [April 05, 2022]
By Will Dunham
WASHINGTON (Reuters) - Scientists have
observed an enormous planet about nine times the mass of Jupiter at a
remarkably early stage of formation - describing it as still in the womb
- in a discovery that challenges the current understanding of planetary
formation.
The researchers used the Subaru Telescope located near the summit of an
inactive Hawaiian volcano and the orbiting Hubble Space Telescope to
detect and study the planet, a gas giant orbiting unusually far from its
young host star. Gas giants are planets, like our solar system's largest
ones Jupiter and Saturn, composed mostly of hydrogen and helium, with
swirling gases surrounding a smaller solid core.
"We think it is still very early on in its 'birthing' process," said
astrophysicist Thayne Currie of the Subaru Telescope and the NASA-Ames
Research Center, lead author of the study published on Monday in the
journal Nature Astronomy https://www.nature.com/articles/s41550-022-01634-x.
"Evidence suggests that this is the earliest stage of formation ever
observed for a gas giant."
It is embedded in an expansive disk of gas and dust, bearing the
material that forms planets, that surrounds a star called AB Aurigae
located 508 light years - the distance light travels in a year, 5.9
trillion miles (9.5 trillion km) - from Earth. This star got a fleeting
moment of fame when its image appeared in a scene in the 2021 film
"Don't Look Up."
About 5,000 planets beyond our solar system, or exoplanets, have been
identified. This one, called AB Aur b, is among the largest. It is
approaching the maximum size to be classified as a planet rather than a
brown dwarf, a body intermediate between planet and star. It is heated
by gas and dust falling into it.
Planets in the process of formation - called protoplanets - have been
observed around only one other star.
Almost all known exoplanets have orbits around their stars within the
distance that separates our sun and its most faraway planet Neptune. But
this planet orbits three times as far as Neptune from the sun and 93
times Earth's distance from the sun.
Its birth appears to be following a different process than the standard
planetary formation model.
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An artist's illustration shows a massive, newly forming exoplanet
called AB Aurigae b. Researchers used new and archival data from the
Hubble Space Telescope and the Subaru Telescope to confirm this
protoplanet is forming through an intense and violent process,
called disk instability. AB Aurigae b is estimated to be about nine
times more massive than Jupiter and orbits its host star over two
times farther than Pluto is from our sun. NASA, ESA, Joseph Olmsted
(STScI)/Handout via REUTERS.
"The conventional thinking is that
most - if not all - planets form by slow accretion of solids onto a
rocky core, and that gas giants go through this phase before the
solid core is massive enough to start accreting gas," said
astronomer and study co-author Olivier Guyon of the Subaru Telescope
and the University of Arizona.
In this scenario, protoplanets embedded in the disk surrounding a
young star gradually grow out of dust- to boulder-sized solid
objects and, if this core reaches several times Earth's mass, then
begin accumulating gas from the disk.
"This process cannot form giant planets at large orbital distance,
so this discovery challenges our understanding of planet formation,"
Guyon said.
Instead, the researchers believe AB Aur b is forming in a scenario
in which the disk around the star cools and gravity causes it to
fragment into one or more massive clumps that form into planets.
"There's more than one way to cook an egg," Currie said. "And
apparently there may be more than one way to form a Jupiter-like
planet."
The star AB Aurigae is about 2.4 times more massive than our sun and
almost 60 times brighter. It is about 2 million years old - an
infant by stellar standards - compared to about 4.5 billion years
for our middle-aged sun. The sun early in its life also was
surrounded by a disk that gave rise to Earth and the other planets.
"New astronomical observations continuously challenge our current
theories, ultimately improving our understanding of the universe,"
Guyon said. "Planet formation is very complex and messy, with many
surprises still ahead."
(Reporting by Will Dunham, Editing by Rosalba O'Brien)
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