Subj : Webb directly images young stars asteroid belt; discovers two addition
To   : All
From : NasaSpaceFlight
Date : Fri May 12 2023 15:30:02

Webb directly images young stars asteroid belt; discovers two additional 
dusty disks

Date:
Fri, 12 May 2023 14:17:39 +0000

Description:
Using the joint NASA/ESA/CSA James Webb Space Telescope, a group of 
astronomers has directly imaged The post Webb directly images young stars 
asteroid belt; discovers two additional dusty disks appeared first on 
NASASpaceFlight.com .

FULL STORY
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Using the joint NASA/ESA/CSA James Webb Space Telescope, a group of 
astronomers has directly imaged three dusty disks  the outermost being an 
asteroid belt  surrounding a young star. The outermost of the disks was first 
discovered by NASAs Infrared Astronomical Satellite in 1983 and has since 
been imaged in detail by the Hubble Space Telescope, Herschel Space 
Observatory, and the Atacama large millimeter/submillimeter array (ALMA). 
However, none of the images from Hubble, Herschel, or ALMA allowed scientists 
to determine the internal structure of the disk or the existence of 
additional disks  until now. 

With Webb operational at the second Sun-Earth Lagrange point, scientists were 
eager to use its extremely sensitive infrared instruments to investigate the 
disk in infrared. When they finally got their hands on the observatory, they 
initially set out to just investigate the outermost disk surrounding the 
star. The results from Webb not only gave the team a look into the interior 
structure of the disk but also allowed them to discover and characterize two 
additional disks located closer to the star. 

 

The young star that plays host to these dusty disks is Fomalhaut  a hot, 
bright star located in the southern Piscis Austrinus constellation 
approximately 25 light-years away from Earth. The three disks seen around 
Fomalhaut, called debris disks, were created from collisions between large 
bodies of gas, rock, and other cosmic material. These types of disks are 
commonly found around young stars and serve as places for left-over material 
from the formation of the star to clump together and potentially form planets 
or asteroids. Webb has a new achievement under its (asteroid) belt! 

This image is our first infrared look at an asteroid belt outside our solar 
system. Webb reveals there are actually 3 belts, including 2 
never-before-seen inner belts, around the star of Fomalhaut: 
https://t.co/pDQKAh4hDA pic.twitter.com/GWed3Bbu4m 

 NASA Webb Telescope (@NASAWebb) May 8, 2023 

 

I would describe Fomalhaut as the archetype of debris disks found elsewhere 
in our galaxy because it has components similar to those we have in our own 
planetary system. By looking at the patterns in these rings, we can actually 
start to make a little sketch of what a planetary system ought to look like  
If we could actually take a deep enough picture to see the suspected planets, 
said lead author Andrs Gspr of the University of Arizona in Tucson, Arizona. 

As mentioned, before Webbs latest observations of Fomalhaut, scientists had 
no idea that the two inner disks existed. The extreme sensitivity of Webbs 
mid-infrared instrument (MIRI) to mid-infrared light allowed teams to see 
further into Fomalhauts planetary system, as much of the dust that makes up 
the three disks is too hot to be seen in visible light. See Also JWST Mission 
Updates Space Science coverage L2 Future Spacecraft Click here to Join L2 

Where Webb really excels is that were able to physically resolve the thermal 
glow from dust in those inner regions. So you can see inner belts that we 
could never see before, said Schuyler Wolff of the University of Arizona. 

With Hubble and ALMA, we were able to image a bunch of Kuiper Belt analogs, 
and weve learned loads about how outer disks form and evolve. But we need 
Webb to allow us to image a dozen or so asteroid belts elsewhere. We can 
learn just as much about the inner warm regions of these disks as Hubble and 
ALMA taught us about the colder outer regions, Wolff said. 

Webbs images didnt only highlight the structure of the outermost ring and the 
inner two disks  it also allowed teams to measure the sizes of the disks and 
compare the characteristics of the disks to that of our own asteroid and 
Kuiper belts. 

Webb found that the outermost of the three disks extends 23 million 
kilometers from Fomalhaut, which measures to be about 150 times the distance 
of Earth from the Sun, and is approximately twice the size of our solar 
systems Kuiper Belt  the massive disk of dust, gas, and small icy bodies that 
orbit the Sun beyond the orbit of Neptune. Whats more, Webbs results showed 
that the disks are significantly more complex than our solar systems main 
disks (the asteroid and Kuiper belts). 

However, how were Fomalhauts disks sculpted and carved into what we see in 
Webbs observations? 

Astronomers believe that the three main disks of Fomalhaut were likely carved 
out by the gravitational forces of planets orbiting Fomalhaut. A similar 
phenomenon occurs in our solar system, as Jupiter shapes the outer asteroid 
belt while Neptune shapes the inner Kuiper belt. Given the small size of the 
planets relative to Fomalhaut and the disks, the planets cant be seen in the 
Webb observations. Annotated graphic of Webbs image of Fomalhauts disks. 
(Credit: NASA/ESA/CSA/A. Gspr (University of Arizona)/A. Pagan (STScI)) 

We definitely didnt expect the more complex structure with the second 
intermediate belt and then the broader asteroid belt. That structure is very 
exciting because any time an astronomer sees a gap and rings in a disk, they 
say, There could be an embedded planet shaping the rings!, said Wolff. 

As Webb continues to image other star systems, scientists will gain a better 
understanding of how planets shape the internal structures of star systems, 
like debris disks. 

The belts around Fomalhaut are kind of a mystery novel: where are the 
planets? I think its not a very big leap to say theres probably a really 
interesting planetary system around the star, said George Rieke, a member of 
the study and the U.S. science lead for MIRI. 

Also seen in the Webb observations was what Gspr et al. are calling the great 
dust cloud. Seen within the right side of the outermost disk, the team 
believes that the cloud could represent the collision between two young 
planetary bodies within the disk. This dust cloud is, interestingly, not the 
first time an object like this has been spotted within Fomalhauts outer disk. 
A similar object was spotted by Hubble in 2008 and was suspected to be a 
planet in the process of forming within the disk. Later observations of the 
cloud in 2014 showed it had disappeared, and scientists interpreted the cloud 
seen in 2008 as a collision between two bodies. 

 Gspr et al.s results were published in the journal Nature Astronomy in early 
May. 

 (Lead image: Webbs image of Fomalhauts three dusty disks. Credit: 
NASA/ESA/CSA/A. Gspr (University of Arizona)/A. Pagan (STScI)) 

The post Webb directly images young stars asteroid belt; discovers two 
additional dusty disks appeared first on NASASpaceFlight.com .



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Link to news story:
https://www.nasaspaceflight.com/2023/05/webb-images-fomalhaut-disks/


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