Wolf-Rayet stars are a very rare and diverse breed
The Discovery
These stars were first discovered by the astronomers Charles Wolf and Georges Rayet in 1867. The stars had a very broad emission spectrum, which is unlike most stars. The emission spectrum of stars is based on the absorption energy of the atoms that make up its outer shell. The positions were also hard to understand, as they were caused by an undiscovered element at that point in time. Edward C. Pickering tried to place it as an unknown form of hydrogen, but it was helium, which was discovered the next year. The widening of the spectrum was caused by doppler broadening. The doppler effect is a change in wavelength of a photon caused by movement. Doppler broadening happens when a group of particles moving in random directions causing doppler shifts in every possible direction. The hotter/faster the particles the wider the spectrum becomes, and Wolf-Rayet stars eject large amounts of extremely energetic particles. [2] [3] [4]
These stars are so rare there have been only 639 discovered (March 2017). Since they have a very low lifespan they act as a marker for recent high-mass star formation in clusters. The rarity and use of these stars mean finding them is a big deal. There are two main methods to searching for these stars, the “narrow band” approach, and the “broad band” approach. The narrow band approach is done by taking a narrow band spectrum of where a Wolf-Rayet star is most active, and then subtracting a broad-band spectrum from that. What is left over should reveal if it matches up with a Wolf-Rayet star. The broad band approach is helpful for stars with strong winds. Energetic winds will release infrared particles and leave behind a spectrum unlike any other kind of star. The broad band method is less certain and more confusing, but it can utilize already existing databases.
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The Evolution
Wolf-Rayet Stars are a step in the evolution of the most massive stars, which are at the very minimum twentyfold the mass of our sun. They start out as main sequence stars; just like our sun. Main sequences stars primarily fuse hydrogen into helium in their cores. Once they run out of hydrogen they turn into a red giant, blue giant, or sometimes directly into a nitrogen class Wolf-Rayet star. These giant stars will turn into a Wolf-Rayet star once they have run out of all hydrogen to fuse. Since they have strong convection they also use the hydrogen at the surface, which leaves high amounts of helium. After this step they begin the carbon-nitrogen-oxygen fusion cycle, which ends up leaving large amounts of nitrogen on the surface of the star. These are nitrogen class Wolf-Rayet stars. Whether the Wolf-Rayet star becomes an oxygen class or carbon class next is most likely dependent on its mass. Those with mass of 20 to 45 times that of our sun become a carbon class Wolf-Rayet star, while those with a mass 45 to 60 times that of our sun become an oxygen class Wolf-Rayet star. [7] [3]
As with every star over nine solar masses, Wolf-Rayet stars will end their lives with a supernova. Wolf-Rayet stars are thought to cause type Ib and type Ic. Both type Ib and Ic are caused by core collapse, like type II supernovae. Unlike type II supernovae, type Ib and Ic supernovae do not have an outer hydrogen shell, and have more heavy elements. Type Ib has an outer helium shell, while type Ic has no helium shell. [8]
The Characteristics
Since the heavier elements have more atoms per unit of space, they release more energy overall through fusion. This causes the star to produce extremely fast winds anywhere from 3.6 million to 9 million kilometers per hour. This heat also means their radiation is mainly in the ultraviolet portion of the spectrum, while the dust around them radiates mostly in the infrared spectrum. This makes it impossible to see with the naked eye. [7] [5]
The faster a star spins, the longer it tends to spend in main sequence. This is because the spinning mixes the hydrogen into the core, extending the amount of time it spends in fusion. As main sequence stars become Wolf-Rayet stars they lose large amounts of mass to solar wind. As they lose mass they lose angular momentum, which slows down the rotation of these stars. The more metal the slower the star will end up. This means all Wolf-Rayet stars have a far slower rotation than the majority of other stars.
[3]
Wolf-Rayet stars are some of the rarest stars. Their characteristics are unlike most other forms of star and that makes them really interesting to study and find.
Test1
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These stars look fairly spectacular I most say so, speculating from the pictures of these big beasts. It looks like they straight out of chemical cauldrons of nebulae, please reaffirm my suspicion if I am correct.
that was what scientists originally thought actually, but its just solar wind
Well that's actually quite interesting. But how did they determine it was solar winds and not "Chemical cauldrons" like nonation said? (Like classification wise.)
all extremely massive stars lose large amounts of mass to solar wind. I think what they figured out first was the stars with that emission spectrum were still very large and not dwarfs (which is what they would be after creating a nebula)
The mass lost due to solar wind seems extremely large atleast in pictures to the point where it's forming their own nebulae.
I must have misread your first one, it isn't a planetary nebula but it is a form of nebula
Ah, ok thank you.
Welp, I learned something new today. From above and below this post. Tbh, I hope one day we all can see more of these in the universe. Damn shame that they're a rarity.
I would want less stars that go supernova near me actually. I don't see that as a fun experience tbh
Amazing post i like it its very nice
Wow, never knew anything about this before now. Very expository, thanks for sharing!
Good brother.
@calitoo
This post has received a 0.14 % upvote from @drotto thanks to: @steemstem-bot.
Nice!
Topics about space amaze me. Call me a nerd but I find them interesting. Haha!
Wow! Awesome! Awesome post.
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@anarchyhasnogods
thank you for your post
adding to the knowledge of the elements and elements there are related in a very rare and beautiful sta
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The galaxy is filled with things that we discover everyday as we study. Twenty fold the mass of the sun? That's quite some star! I always like how stars at the end of their life span goes out with a bang. A sort of "remember me" farewell last display. Astronomy is never a boring subject.
A great post and quite easy to appreciate due to the way it was simplified in lay terms.
I loved your post, but another thing that I think it's important to add is that the Wolf-Rayet stars are characterized by intense helium emission lines in their spectra.
I did say that right in the beginning
true, I'm sorry, I'm half blind hehe, it's the habit of associating them with helium emission lines, since there's also another type of stars with emission lines and I think it's important to add that the most intense are helium, it would also be great that you will add its spectrum, have an excellent day
is that spectrum picture free for public use?
upvoted, followed and resteemed, thanks for such a nice post
Well this post was quite interesting. Because i learned something new in terms of stars. That these stars also exist. Well what about the stars in the globular clusters. Do these clusters contain a mixture of star types .
they usually have many types of stars when they were new but the large ones die out as they age, leaving only the small ones
Ok than whats the difference between a globular cluster and a open star cluster.
http://lmgtfy.com/?q=what+is+the+difference+between+an+open+star+cluster+and+globular+cluster
Well thanks for the info !!!!
Discussion about the universe is very exciting. I feel I'm doing a mission with a startrex crew. have lunch on mars and have coffee on the moon. I really like science because it means you are on an adventure trip. @anarchyhasnogods and @lemouth is a pilot airplane traveling space. I've tried to deepen some of the sources and that's great for me. for that I had 4 days in front of the laptop read every source, I love to reading, and my city is known as cyber city because every 5 meter attached 1 wifi with power 10 to 30 mega byte. I have a question for Mr. @anarchyhasnogods and Mr. @ lemouth. Actually I once asked Mr. @ lemouth.
My question is
Again, forgive me. Because it is about something very far away, it is a very interesting thing for me. A few hours ago I commented to Mr. @justtryme about DNA and Protein not difference with this. Yup, I love this all and I enjoy it. Thank you very much for your sharing, of course you spend couple hour for prepare this great article, I big appreciates for all of your effort. Have nice day.
its called spacetime actually. It is called that because we have 3 dimensions of space and 1 of time, so spactime describes the fabric of our universe.
The carbon stars are a type of wolf-rayet star, not a requirement.
I am not part of an institution and do not have telescopes myself.
I am not a pilot... Why do you think I am one? :)
I love the brilliant colors of stars. Lots of info I'm interested in. Great post.
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I'm sorry, I have literally no fucking clue what you just said
Holy! This is just right up my alley. I'm glad I came to check out your blog... I knew a guy who plays MTG should be a cool cookie like me... You just got yourself another follower :D