Astronomers using NASA's James Webb Space Telescope have discovered a giant planet outside our solar system, called an exoplanet, hiding within one of the most intensely studied planetary systems in our Milky Way galaxy.
The young, nearby star Beta
Pictoris was already known to host two giant planets: Beta Pictoris b, one of
the first exoplanets ever directly imaged, and Beta Pictoris c. The newly
identified Beta Pictoris d makes it only the second planetary system known to
contain at least three imaged planets. Unlike Beta Pictoris b and c, however,
Beta Pictoris d was discovered not by identifying a bright point of light, but
by detecting the unique chemical fingerprint of its atmosphere, a technique
that could transform the search for worlds around other stars.
"This discovery adds another
piece to an already fascinating planetary system," said Aidan Gibbs, lead
author of a new study published Wednesday in the Astrophysical Journal Letters
and a postdoctoral researcher at the University of California, San Diego.
"Beta Pictoris has long served as a laboratory for understanding how
planetary systems form and evolve, and now we have another planet helping us
tell that story."
Image: Beta Pictoris System
(Artist's Concept)
This artist’s concept shows the Beta Pictoris system
with the discovered giant exoplanet Beta Pictoris d at the right. It has the
widest orbit of the known three exoplanets within the system.
Illustration: NASA, ESA, CSA, STScI, Ralf Crawford
(STScI)
Familiar system, new surprise
Located 63 light-years from Earth
and about 23 million years old, Beta Pictoris is a nearby system in the Milky
Way offering a rare glimpse of the interactions between newborn planets and the
disk of dust and debris left behind from their formation.
The team estimates that the
newfound Beta Pictoris d is likely at least two times the mass of Jupiter,
making it the smallest of the three known giant planets in the system. Modeling
suggests it likely circles around its star at about 30 astronomical units, comparable to the region occupied by Neptune in our
own solar system. It’s the widest orbit of the known three planets, but still
located inside the inner edge of the debris disk.
Although astronomers were not
searching for another planet with Webb, Beta Pictoris d emerged while the team
was using the telescope’s NIRSpec (Near-Infrared Spectrograph) to study the
atmosphere of Beta Pictoris b. Specifically, they used NIRSpec’s Integral Field
Unit, which obtains both an image and a spectrum from each pixel in an image.
"We weren't looking for a new
planet," said Gibbs. "We were trying to understand one we already
knew existed. Then, this telltale signal appeared in the data where we didn’t
expect it."
This signal was a series of peaks
and troughs within the spectroscopic data where the team expected to see a smooth spectrum from light bouncing
off dust. It was a distinctive pattern of carbon monoxide absorption lines,
spread out like a barcode, an expected feature in giant planet atmospheres.
Because spectroscopy not only
reveals chemical composition, but the motion of an object, the team was able to
also extract radial velocity from the data. The team determined the planet’s
speed, position, and alignment with the debris disk were all consistent with
something orbiting Beta Pictoris rather than a background star or brown dwarf
with carbon monoxide in its atmosphere.
"There was an unexpected
bright source of light within the Integral Field Unit imaging, but we've
learned not to trust bright blobs in images," said Jean-Baptiste Ruffio, a
research scientist at University of California, San Diego and principal
investigator of the first Webb observations where the discovery was made.
"They can be instrumental artifacts or other structures in the debris
disk. By obtaining a spectrum at the same time as the image, we were able to
quickly confirm our suspicions.”
Follow-up observations with Webb's
MIRI (Mid-Infrared Instrument) through a Director’s Discretionary Time request detected water vapor and methane, further
confirming the planet's identity while providing a richer look at the
atmosphere of the planet.
Unlike traditional imaging, the
spectroscopic approach allowed researchers to identify the planet and begin
studying its atmosphere from the very first observation.
"A spectrum contains an
incredible amount of information," Ruffio said. "You don't just learn
that something is a planet; you immediately begin learning about its
temperature, chemistry, and motion."
A separate imaging study led by Ben
Sutlieff of the University of Edinburgh and Markus Bonse of the European
Southern Observatory complements the team’s findings with data from the
European Southern Observatory’s Very Large Telescope and Webb’s NIRCam (Near-Infrared
Camera) and independently confirmed the existence of Beta Pictoris d.
Image: Beta Pictoris System
(NIRSpec IFU Image and Spectrum)
Researchers used the NIRSpec (Near-Infrared
Spectrograph) Integral Field Unit on NASA’s James Webb Space Telescope to map
chemical contents of the Beta Pictoris system. As a result, they discovered a
third planet, Beta Pictoris d, orbiting the young star.
Image: NASA, ESA, CSA, STScI, Leah Hustak (STScI);
Science: Aidan Gibbs (UC San Diego), Jean-Baptiste Ruffio (UC San Diego),
Alexis Bidot (STScI); Image Processing: Alyssa Pagan (STScI)
Image: Beta Pictoris System
(NIRSpec IFU Image Annotated)
The newly discovered third planet orbiting Beta
Pictoris, Beta Pictoris d, is seen in reconstructed imagery from NASA’s James
Webb Space Telescope’s NIRSpec (Near-Infrared Spectrograph).
Image: NASA, ESA, CSA, STScI; Science: Aidan Gibbs (UC
San Diego), Jean-Baptiste Ruffio (UC San Diego); Image Processing: Alyssa Pagan
(STScI)
Seeing through cosmic fog
Beta Pictoris d remained hidden for
years because it lies within one of the brightest debris disks known.
The dusty disk acts like fog,
scattering light from the star, making it difficult for conventional imaging
techniques to distinguish planets from surrounding structures. The team's
spectroscopic method with Webb effectively ignored that dust, isolating only
the narrow molecular signatures unique to a planetary atmosphere.
Scientists say the planet’s
presence may help explain why the famous debris disk has such a sharply defined
inner edge and other puzzling structures. In fact, astronomers had already
predicted the existence of a planet like Beta Pictoris d to account for the
disk’s unusual structure.
Beyond expanding our understanding
of Beta Pictoris, the discovery demonstrates a powerful new way to find
exoplanets.
This is the first directly imaged
planet discovered primarily through moderate-resolution spectroscopy, showing
that astronomers can identify worlds in complex environments through their
atmospheric fingerprints rather than relying solely on traditional coronagraphic
imaging.
The researchers plan to continue
analyzing Webb's observations to better determine the planet's temperature,
atmospheric composition, and orbit, providing an even more detailed view of one
of astronomy's most iconic planetary systems.
The James Webb Space Telescope is
the world’s premier space science observatory. Webb is solving mysteries in our
solar system, looking beyond to distant worlds around other stars, and probing
the mysterious structures and origins of our universe and our place in it. Webb
is an international program led by NASA with its partners, ESA (European Space
Agency) and CSA (Canadian Space Agency).
To learn more about Webb, visit: https://science.nasa.gov/webb
Source: NASA's Webb Discovers Hidden Planet in Famous Star System - NASA Science



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