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Between meetings today I thought I'd talk about #NASA #JWST and all the exciting #science we can expect from it starting in a few months!
(Yes, I made this travel mug ❤️)
#SciComm #Exoplanets #Astronomy #Astrophysics #Telescope #MastodonNewbie
A quick note: if you ask me what #JWST stands for I'll tell you it's the Just Wonderful Space Telescope
https://www.scientificamerican.com/article/nasa-needs-to-rename-the-james-webb-space-telescope/
Because it launched folded up, #JWST spent the first several weeks verrryyy carefully unfolding itself in space as it traveled to its orbit.
The scariest part was the sunshield tensioning! The sunshield is the pink/grey part and is used to keep the mirrors and instruments nice and cold so we can see the very faint heat from the early universe!
By now you might be wondering: Why is the telescope #gold?
The mirrors are actually made of Beryllium, which is a very strong and lightweight metal, and are coated in a very thin layer of gold. The total amount of gold on #JWST is only about the size of a marble!
Why gold? Gold is VERY efficient at reflecting infrared light! JWST is designed to search for this heat in the early universe
Unlike the #Hubble Space Telescope, #JWST is not orbiting Earth! Because it's designed to look for faint heat in the early universe, it has to be far away so that the Earth's heat doesn't overpower what it's observing!
JWST is orbiting a point in space called L2, a gravitationally stable point nearly a million miles beyond Earth.
In this gif, the sun is at the center, Earth is the large blue dot, and you can see JWST orbiting an empty point in space beyond Earth. This is not to scale!
Now while the benefits of being so far away from Earth allow us to look even further back into the earliest parts of the universe, it also means that #JWST isn't serviceable like #Hubble
Did you know that when Hubble launched its primary mirror was made wrong and we had to send a Shuttle mission up to service it and give it glasses? Unfortunately if something goes wrong with #JWST we can't send humans to fix it. #JWST is nearly a million miles away and further than the moon!
Luckily, because JWST needed to be folded up we actually don't have to worry about the mirrors being shaped wrong. Since it's broken into segments, each segment can move on its own to help align the telescope perfectly.
This is best demonstrated by this #Lego #JWST model that was submitted to lego ideas and is currently under review!
Each segment can move independently so it reflects light perfectly to the secondary mirror and back to the instruments.
So as you may know from my #introduction and bio, I study exoplanets!
These are planets around other stars. One day I'll do a thread about how we find them, but for now I'll talk about how I'll be using #JWST to study their atmospheres!
Recently we just passed over 5,000 discovered exoplanets and the number is growing rapidly! This means we have lots of potential targets for JWST, and it's hard to prioritize our time!
Exoplanets are quite small compared to their stars, so it's really hard to separate their light from the light of their stars. We need BIG telescopes that can capture A LOT of light, and we need their detectors (essentially the camera in their instruments) to be REALLY PRECISE!
One of the ways we'll do that is with a method called "transmission spectroscopy"
For this method, we watch the planet cross between us and its host star, called a transit. The planet blocks out some of the star's light, but some of that star's light also has to travel through the planet's atmosphere before it reaches our telescopes too.
This is convenient for us because the star light will interact with the gases, clouds, etc in the planet's atmosphere, and these things will leave signals in the light we receive from the star!
@_astronoMay @astromecanik that’s crazy awesome! I’m barely starting to scratch the surface, doing some stellar spectroscopy (100% noob level)
@astromecanik spectroscopy is so fun! but maybe I'm biased because I absolutely love rainbows 🌈