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  • Have you ever wondered how all the chemical elements are made?

  • Then join me as we are lifting all the star dust secrets to understand the cosmic origin of the chemical elements.

  • We have come to the end of our little journey where we wanted to

  • explore the origin of the chemical elements.

  • I hope you enjoyed it and I hope I could help you to understand that this is actually not just one origin --

  • it's a whole process, and it's a process that's still going on. So let's summarize

  • what we covered. Wel,l we talked a lot about fusion and neutron-capture

  • processes that create all the elements in the first place. We talked a little

  • bit about where that happens, namely in the cores of stars as well as in

  • supernovae and in neutron star mergers. And once these elements are created,

  • they can then be observed and they contribute to the chemical evolution of

  • the universe. If they are produced in the early universe then we can see them in

  • the oldest stars, so if produced in the early universe, then we have a chance of

  • observing clean signatures. Today that is not possible anymore because chemical

  • evolution has moved on to far. It's too messy today. So we use the most metal

  • stars in order to detect these clean signatures and work with nuclear

  • physicists to understand how these processes exactly work and in what

  • astrophysical sites they might occur. So here we have the oldest stars, and one

  • reason why we can infer that these stars must be very old because if they weren't

  • we wouldn't get these very clean signatures that were only present at the

  • earliest times. Now, the very fortunate coincidence for us is that these oldest

  • stars actually found in the Milky Way today so they are fairly local objects

  • and that is a great advantage over very distant galaxies that are also often

  • used to study the early universe. We find them in a Milky Way but we

  • need special kind of data of course to do a chemical analysis and we do that with

  • spectroscopic observations and we use the world's largest telescopes for that

  • because only they can give us the kind of data quality that we need in order to

  • measure these tiny little absorption lines that tell us about the composition

  • of all the different elements across the periodic table. And then finally, if we

  • put this all together, we can determine the chemical composition of our

  • old stars, and actually, we can do so not just of old stars but of stars with a

  • variety of ages, a variety of metal contents, and that helps us to piece

  • together how the amount of each metal actually changed with time.

  • That's a very exciting prospect, well, that's chemical evolution! As I

  • mentioned before, this is an ongoing process much of all the elements are

  • still being produced right now, there's probably a supernova going off right now

  • as we speak somewhere in the universe where more

  • elements have been created and so the chemical makeup of the universe is

  • changed again. So it's a continuously changing process and that brings us to

  • the end. This is really all the star stuff that we are made of and, well, the

  • origin is not entirely from stars but also a stellar remnants, and as I mentioned

  • supernovae and neutron star managers should be included in that but, yeah,

  • that is really our cosmic origin for us humans -- it lays in the cosmos, in the

  • cosmic object, in a variety of them and it takes a whole bunch of processes in

  • order to unravel all those star dus secrets. And one last thing I

  • wanted to mention, doing this kind of work with all the different

  • elements has shown pretty clearly that carbon is not only the most important

  • elements for us humans because all life forms are carbon-based, it actually turns

  • out it's also the most important element in the universe.

  • Because at that early time, it needed the carbon to help for the gas to come

  • together to form small stars and small structures and so I think carbon really

  • plays the most fundamental role in the universe that we can think of because it

  • helped star formation and galaxy formation, and ultimately planet

  • formation, and formation of life.

Have you ever wondered how all the chemical elements are made?

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B1 中級

第11集:摘要 (Ep. 11: Summary)

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    林宜悉 發佈於 2021 年 01 月 14 日
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