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  • Starting in 2009, the spacecraft Kepler scanned the night sky hunting for distant worlds.

  • Over the course of its nearly decade long mission, it identified over 2,300 confirmed

  • exoplanets, making us realize the galaxy was much fuller than we previously thought.

  • But poring over the data, something jumps out at you: we seem to be missing planets

  • of a particular size.

  • It appears there are a lot of rocky planets in the ballpark of Earth's size, up to 1.5

  • earth radii.

  • And there seem to be plenty of gas planets that are like mini-Neptunes, 2 to 3 times

  • as big as Earth across.

  • But a 2017 paper on the data noted that between those two peaks is a noticeable dip.

  • There are way fewer planets 1.5 to 2 times Earth's size than we'd expect.

  • For some reason, instead of a smooth distribution curve, there's a big gap. It looks like my

  • teeth in middle school.

  • The anomaly has been dubbed the Fulton Gap.

  • The Fulton Gap calls into question what we think we know about planetary formation, and

  • we've had to come up with explanations to make the data fit.

  • Some of them focus on atmospheric loss.

  • The mini-Neptunes we see could have cores massive enough to hold onto their gassy atmospheres.

  • Gas can add to a planet's size easily since it takes up so much space.

  • But if the cores aren't big enough, astronomers suggest the atmosphere could get blown away,

  • leaving the much smaller and denser rocky mass behind.

  • It's like a reverse Goldilocks scenario, and any planets we do see in the gap may not

  • be there for long.

  • Atmospheric loss is one of three general ideas.

  • It's possible that planets just naturally fall on one side of this gap or the other,

  • maybe due to how dust and gas is distributed after a star forms.

  • Or perhaps planets of a certain size just cook their atmosphere away as they cool, an

  • effect calledcore-powered mass-loss.”

  • Core-powered mass-loss is also what I'm calling my ab-focused fitness program.

  • This is assuming the larger planets are gassy layers over a rocky core, but truth be told

  • we aren't sure about their makeup just yet.

  • What some astronomers think is hydrogen gas, others argue could be water.

  • Really what we need is more data.

  • Kepler told us a lot, but it only looked at one tiny patch of sky near the Cygnus constellation

  • for most of its lifespan.

  • It also studied distant dim stars that are harder to follow-up on using additional telescopes

  • on the ground.

  • The Transient Exoplanet Survey Satellite, or TESS, should remedy a lot of those shortcomings.

  • Launched in April of 2018, TESS will monitor an area of the sky 400 times larger than Kepler

  • did, observing stars 30 to 100 times brighter.

  • And it will be able to detect planets farther away from their stars that take longer to

  • pass in front of it.

  • So far TESS has only had enough time to confirm 20 more exoplanets.

  • Once it's had enough time to document a statistically significant number, we can revisit

  • the Fulton gap.

  • Maybe it'll end up going away, or maybe it'll persist and the cosmic mystery will remain

  • unsolved.

  • Thanks for watching be sure to subscribe because we love talking about exoplanets, and the

  • craft that found most of them was a testament to human ingenuity and can-do spirit.

  • For the full story check out Trace's video here.

  • That's all for now, see you next time on Seeker!

Starting in 2009, the spacecraft Kepler scanned the night sky hunting for distant worlds.

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行星形成的祕密可能就藏在 "富爾頓峽谷 "中。 (The Secret to Planet Formation Might Be Hiding in the ‘Fulton Gap’)

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    林宜悉 發佈於 2021 年 01 月 14 日
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