Subj : As megaconstellations grow, scientists become concerned with their imp
To   : All
From : NasaSpaceFlight
Date : Sun Apr 23 2023 21:30:03

As megaconstellations grow, scientists become concerned with their impacts on 
astronomy

Date:
Sun, 23 Apr 2023 20:23:11 +0000

Description:
Since their initial launch in 2019, SpaceXs Starlink internet satellites have 
become infamous for photobombing The post As megaconstellations grow, 
scientists become concerned with their impacts on astronomy appeared first on 
NASASpaceFlight.com .

FULL STORY
======================================================================

Since their initial launch in 2019, SpaceXs Starlink internet satellites have 
become infamous for photobombing observations from ground-based telescopes. 
While Starlink  along with other satellite megaconstellations  has been a 
primary concern for ground-based telescope observations, a new issue has 
begun to pop up; the satellites are now occasionally obstructing images from 
one of NASAs flagship space telescopes, the Hubble Space Telescope. These 
photobombings point to a concerning future for astronomy in low Earth orbit 
(LEO), as telescopes in LEO may begin to face the same problems ground-based 
telescopes face today  especially as these satellite megaconstellations grow. 

To learn more about this growing issue, NSF sat down with astrophysicist Dr. 
Jonathan McDowell from the Harvard-Smithsonian Center for Astrophysics to 
discuss the topic. 

 

Satellites have long been an issue for astronomy, but due to the relatively 
low amount of satellites in orbit during the first several decades of 
spaceflight, the issue was not an extreme concern. The environment in LEO has 
been rapidly changing over the past few years, however, as more private 
companies (i.e. SpaceX and Amazon) and nations express interest in and launch 
so-called satellite megaconstellations. The most well-known, and arguably the 
most controversial, megaconstellation today is Starlink  SpaceXs 
publicly-available internet satellites  and OneWeb, a company aiming to 
provide commercial internet service worldwide. 

Starlink and OneWeb are not the only two megaconstellations, though, as there 
are several megaconstellations currently in development. This includes 
Project Kuiper, Amazons competitor to Starlink, which is set to begin demo 
launches later this year. A Starlink v1.5 satellite (left) compared to a 
Starlink v1.0 satellite (right). Note the comparably larger size of the solar 
panel, which causes significant reflections when not angled away from Earth. 
(Credit: SpaceX) 

Due to Starlink being one of the first true satellite megaconstellations  and 
planned to be larger than any other megaconstellation currently in 
development  the program has garnered much attention from the public and 
astronomers alike. See Also Hubble Updates Space Science Section NSF Store 
Click here to Join L2 

Leading up to the maiden Starlink launch, astronomers were not immensely 
concerned about their effect. While astronomers knew the size of Starlinks 
constellation would likely threaten ground-based astronomy, they would soon 
find that Starlinks impact on their observations and research would be far 
more serious than previously thought. Dr. McDowell explained, [Astronomers] 
had greatly underestimated how bright these satellites were going to be. We 
hadnt paid it a lot of attention, and we didnt realize how enormous the 
satellites were going to be because they hadnt told us. [W]e didnt appreciate 
the impact they were going to have. 

Fortunately, SpaceX has been working closely with astronomers to mitigate the 
effects of Starlinks size and brightness on astronomical observations. The 
company has tested multiple designs to reduce the brightness of the 
satellites, such as dark paint and sunshades. However, due to thermal issues 
and the fact that sunshades would block the laser links on newer satellites, 
these mitigations were only flown on a limited number of older satellites. 

While SpaceX is investigating newer forms of dark coatings for the 
satellites, the current primary brightness mitigation technique is aligning 
the satellites so that their large and extremely reflective solar arrays face 
away from Earth. 

These mitigation techniques were all designed to limit the impacts of 
Starlink on ground-based astronomy. However, the techniques do little to 
lessen the impact of Starlink on LEO-based observation, which was previously 
thought to have been a safe haven from the negative effects of Starlink. An 
image of the NGC 5353/4 galaxy group taken with a ground-based telescope at 
Lowell Observatory in Arizona. The streaks are Starlink satellites transiting 
across the telescopes field of view. (Credit: Victoria Girgis/Lowell 
Observatory) 

Dr. McDowell explained that around 3% of Hubbles observations prior to 
Starlink were obstructed by satellite trails. Thankfully, this did not always 
mean the data was useless, as he explained, Most of that was not Throw away 
the science, it was Okay, we cant use that image for this purpose but more 
and more you are getting to the point where [you say] Okay, that data is 
useless for the purpose we took it.' 

Hubble currently orbits around 10km below the operational orbit of most 
Starlink satellites. This, combined with its narrow field of view, means it 
should be safer than other telescopes  but will still be heavily affected as 
more and more megaconstellations begin to grow in LEO. 

Wide field-of-view space telescopes in LEO, such as Chinas upcoming Xuntian 
telescope, will be more severely affected. Xuntian will feature a field of 
view that is over 300 times larger than that of Hubble, allowing it to image 
a very large swath of sky at once. Wide field-of-view telescopes can be used 
to survey the sky, noting changes in areas over time. NASAs upcoming Nancy 
Grace Roman Space Telescope will serve a similar purpose. The field of view 
of NASAs upcoming Roman telescope compared to Hubble. (Credit: NASA GSFC) 

While Roman  alongside the joint NASA/ESA/CSA James Webb Space Telescope  
will never need to worry about Starlink satellite streaks thanks to its 
position at the Earth-Sun Lagrange point 2 (L2), Xuntian  in a 390 kilometer 
LEO  will be faced with a tough challenge. While its wide field of view will 
be excellent for capturing large areas of space, it also drastically 
increases the chances of satellites passing through the telescopes line of 
sight. 

With the negative effects of satellite megaconstellations becoming more and 
more clear, it raises a question: will future LEO telescopes need to take 
these satellite constellations into account? 

Dr. McDowell replied simply, Absolutely. 

He continued, The solution for, say, most American missions is going to be 
Lets put them high up. But, if youre a developing country, like if India 
wanted to launch another space telescope  maybe they dont have the rockets to 
put it higher up. And so I think its going to be a real challenge for future 
low Earth orbit observatories  particularly for ones that have a wide field 
of view that are searching for new things. 

We have the scalpels which look at a known object with a big magnification, 
and then we have the surveys, which look at a bunch of sky at once, trying to 
find things that havent been seen before  and those [survey telescopes] are 
the ones [that will be affected]. 

He then added one final thought: I think that low Earth orbit astronomy is 
going to be problematic every bit as much as ground-based astronomy. Render 
of the X-Ray Imaging and Spectroscopy Mission (XRISM), an upcoming Japanese 
X-ray telescope. X-ray telescopes like XRISM should be less affected by 
satellites than ultraviolet, visible, and infrared telescopes. (Credit: JAXA) 

But thankfully, this increase in satellite counts should not be problematic 
for every type of astronomy. He explained, There may be missions where you do 
the calculation, and you go Yeah, thats a 1% effect, were not going to worry 
about it, and other missions where you go No, you know what, youve got to go 
high because weve just lost LEO for this purpose.' 

X-ray telescopes in LEO, such as Japans upcoming XRISM mission, should be 
minimally affected as Starlink is not bright in the X-ray spectrum. 

As megaconstellations continue to develop and grow, astronomers will need to 
adjust how they study the cosmos. LEO is no longer a safe haven for astronomy 
 telescopes will need to be launched into higher orbits if they want to limit 
the effects of satellite transits. Distant locations like L2 may end up being 
a truly safe haven, as astronomers reach for an unobstructed view of the 
heavens. 

 (Lead image: The Hubble Space Telescope seen from the Space Shuttles crew 
cabin during a servicing mission. Credit: NASA) 

The post As megaconstellations grow, scientists become concerned with their 
impacts on astronomy appeared first on NASASpaceFlight.com .



======================================================================
Link to news story:
https://www.nasaspaceflight.com/2023/04/megaconstellations-effects-on-astronom
y/


--- Mystic BBS v1.12 A47 (Linux/64)
 * Origin: tqwNet Science News (1337:1/100)

.