Name: 我們其實並不知道太陽是從哪裡來的。 (We Don't Actually Know Where the Sun Came From)
Uploaded: 2021-01-14T10:28:40.000Z
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基礎被動語態

Space is packed with all kinds of mysteries; that's part of what makes it cool.

Some of those mysteries, though, are closer to home than others.

Like, here's a surprising one: We actually don't know where the Sun came from!

According to what we know about star formation, the Sun probably formed from a huge cloud

of gas, along with a bunch of stellar siblings, stars that formed in the same place out of

Except, we can't find evidence of that cloud, or the Sun's family, anywhere.

Get your tissues ready, because this is basically waiting to be turned into a Pixar short.

Even though we can't find the Sun's family, we're pretty confident it has to exist because

The current model requires that a bunch of stars get born together out of a big ol'

gas cloud, called a molecular or giant molecular cloud depending on its size.

Eventually, because space is super vicious, the clouds get eaten up or dispersed by their

After that, the stars, and their planets, if they've accumulated any, might separate

or might move together for a while in a so-called open cluster.

Then, over time, all the little gravitational pulls and tugs from the member stars build

up and finally send the stars on different trajectories.

These stars can end up all over a galaxy, but they can still be identified as members

of the same family because they typically have similar ages, and often have really similar

There can be plenty of variation within a cluster, but there are still some general

Most stars don't stick around to form open clusters, but we have evidence that the Sun

was one of the few who stayed with its family a bit longer.

For one thing, the orbital motions of the Kuiper Belt objects, most notably the planetoid

Sedna, strongly suggest some gravitational interaction with other stars, probably in

Otherwise, they likely couldn't have been jostled into their current orbits.

There's also evidence, like the excess amount of heavy elements in the Sun, and the presence

of uranium in the Earth, that there was a supernova near our star when it formed.

It could've come from a huge, short-lived member of a larger stellar nursery, like an

We have plenty of reason to believe that the Sun was born in an open cluster, but we can't

find anyone else from that stellar nursery, even though we've been looking all over.

It's like Finding Dory, but with a lot more math.

For a while, astronomers thought the Messier 67 open cluster, or M67 for short, was the

It's an open cluster about 2700 light years away, in the Cancer constellation.

It's a pretty dense group, which would match our hypotheses, and it's also about five

That's really old for an open cluster, but it's about as old as the Sun!

Admittedly, dating stars is really hard, so there are some big error bars on that measurement.

But it's in the ballpark, and astronomers love ballparking.

So its age and density make M67 a good candidate, but its orbital path around the galaxy is

way different from the Sun's, and that's become a big source of debate.

On the one hand, this might not be a problem.

Because members of open clusters interact gravitationally, it's possible that a star

could get kicked out and end up with some different orbital parameters.

But on the other hand, the kind of kick that the Sun would have needed to get on its current

path is super huge, like, too big for it to have kept its baby solar system.

So the fact that we're here is some evidence against the M67 hypothesis.

That is, unless that kick happened really early on.

An early, gentle nudge, given a lot of time, could have gotten the Sun way off course.

So, we're still not exactly sure what's going on here!

Thankfully, there are a few projects, both launched in 2013, that are helping with that.

One is the Gaia mission, run by the European Space Agency, and the other is the GALAH project,

run by the Australian Astronomical Observatory.

Together, they're collecting astrometry and astrochemistry data of a truly enormous

quantity of stars, or data about their positions, movements, and chemistry.

Astrometry is good for finding former and current open clusters, because members of

And even if the Sun's siblings have dispersed, we could use current star positions to calculate

Astrochemistry may also prove to be a smoking gun.

Since the Sun is so metallic from that supernova explosion, its sibling stars may have similarly

All we have to do is find stars that match those descriptions!

Gaia is working to get astrometric and astrochemical data on a /billion/ stars from an orbit near

GALAH, on the other hand, is just doing astrochemistry on a more modest million stars, and it's

Both missions will wrap up over the next few years.

After that, it's up to astronomers to make sense of the mountains of data!

Between the two surveys, we're characterizing tons and tons of stars.

We haven't found the Sun's siblings yet, but these surveys are currently our best chance

Besides being a nice end to a story, understanding where the Sun originated and what it was like

there can also help us understand why our solar system turned out like it did.

Still, even if these projects don't give us the data we need to solve the Sun's mystery,

they'll give us incredible insights into the formation and evolution of the galaxy,

which is a pretty sweet consolation prize.

But there are some puzzles we can solve about where stars come from on Brilliant.org.

That's right, they have a whole course on the Life Cycles of Stars which starts with

What's cool about Brilliant is that they've really embraced how to best use their platform

with animations that help you wrap your brain around a complex idea.

When I was going to school and regularly taking science quizzes, we didn't have the internet

or computers in the classroom, because I'm old.

We had this stuff called paper and it didn't include moving graphics like this that help

But with Brilliant, whether you're a student or a lifelong learner, you can benefit from

these interactive quizzes to help you learn and have fun while you're doing it.

So check it out and see how much you know about star formation.

Brilliant is also offering 20% off their annual premium subscription to the first 200 SciShow

Space viewers who sign up at Brilliant.org/SciShowSpace.