So yesterday I talked a lot about #JWST, but that's not actually what I work on the most right now! Until we get JWST data I'm over in #Spitzer land, a previous #NASA space telescope that is unfortunately no longer operational.
Even though it's not actively collecting data, there is still so much #science we can do with what exists! ðŸ”
I have a grant from NASA to uniformly reanalyze ALL of the Spitzer #exoplanet phase curve data:
So what's a phase curve and why do we care?
Well first we need to talk a little bit about this really weird type of exoplanet called a Hot Jupiter.
In our Solar System we have a relatively well ordered set of planets. There are 4 rocky planets closer to the Sun and 4 gaseous planets further from the Sun. For a long time we expected all planetary systems to look like this too!
But as it typically goes with science, once we started finding planets around other stars it turned out that many of them are nothing like we expected
The very first exoplanets we found were about the size of Jupiter and REALLY REALLY REALLY close to their stars!
Mercury is the closest planet to the Sun and it orbits in about 88 days. But some of these new exoplanets we were finding orbit their stars in *only a few days* 🔥
Erin M. May, PhD
Mike Flugennock