How can you look inside a supernova?
Ғылым және технология
A supernova is one of the most energetic events in the universe since the Big Bang. Entire stars blow up, announcing their death to the cosmos. In this video, Fermilab’s Dr. Don Lincoln talks about how Fermilab researchers are building a detector that can peer into the core of the supernova as it is exploding. Neutrinos provide a microscope that cannot be duplicated by any other means.
What is the DUNE experiment?:
• What is the DUNE exper...
DUNE general public science website:
www.dunescience.org/
DUNE Technical documents:
www.osti.gov/servlets/purl/12...
cds.cern.ch/record/2709273/fi...
Fermilab physics 101:
www.fnal.gov/pub/science/part...
Fermilab home page:
fnal.gov
Пікірлер: 238
It's so refreshing to see that one of the greatest research facilities in the world is good at communication with public and teaching them about physics. Thanks Dr.Don and Fermilab.
So glad they don't ruin their videos with distracting music like so many other science shows
Thank you Dr Lincoln for your videos....they are not only mindblowing but, at the same time, interesting and amusing....keep doing this, you'll inspire the next Einstein mind that is going to see you and become a physicist like you.
I just found this is a channel!!!! I used to go fishing at what my dad used to call the “cooling pond” there. (I think there were small circular “ponds” near the building, but that’s not where we were, we fished at a natural-looking pond farther away.) I spent many Saturdays in the early 90s there at the pond and walking through what my 8 year old, inner city brain throught was woods. I got to go inside a few times too, I thought that pendulum was the coolest thing ever! I was in the area again a few months ago and was sad to find out that I can’t just walk in and check the place out anymore. When I was last there, the displays of on-going projects they had in the halls were waaaaay over my head, it would be cool to check it out now as an adult.
Always love a new Dr. Don Lincoln video
DUNE? The spice must flow.
Powerful sunglasses
Good to see FL and the Doctor making content again!
One of the most astonishing things I’ve found about a supernova is that they release so many neutrinos that they crease pressure.
Always love these videos. Thank you Dr. Don. There are limits to the energy we can create in our machines and experiments here on Earth. Luckily, space likes to do those 'experiments' at millions of times the energy we can produce on it's own for us all the time. We just have to be in the right place at the right time to see them. When we do see them though, so much science is done and so many things are learned. Thank you Universe. You are truly stellar.
Fascinating, inspiring, and enlightening, thank you.
Yet another interesting video Dr. Don! Glad that you are posting more regularly now as I always enjoy watching your videos! Happy New Year! 💥💥
Many thanks for making these educational videos, they are of a good enough quality to be entertaining to watch. Really, thanks.
Thanks for another fantastic video Dr Don. And I don't know what it is but after watching your videos I always have a smile on my face.😁
Lyrics for the song 'Little Neutrino' by David 'Dee" Long of the band Klaatu: Across your open mind I trace erratic lines In motion and in time I fought a battle won To the surface of the sun Through fires on and on It's only you It can't be me For I myself refuse to be I am someone you'll never know I am the little neutrino Solus is not far away It's face is brighter than a day So don't turn me away It's only you It can't be me For I myself refuse to be I am someone you'll never know I am the little neutrino And now I'm passing through The one who's known as you And yet you'll never know I do Goodnight
The supernova shown is SN1994D, and the image was processed by Pete Challis at Harvard. However, this is a Type Ia supernova. For these explosions of white dwarfs, most of the energy is not in neutrinos. For core-collapse supernovae like 1987A, you are right. Most of this energy actually comes from the gravitational energy of the collapse which then escapes as neutrinos.
Fermilab is a gem of a channel! I am subbed to a lot of science channels this is one of the few that I put on notifications 🔔 Thanks for the video Mr. Lincoln
Love your videos Dr. Lincoln!
Thanks Doctor lincoln, this was as ever entertaining and informative-
Waiting for things to blow up. Now that is science!
Awesome. Missed your videos. New lighting is much much better too. :)
Fascinating!
Greetings and Happy New Year from Athens Greece! My name is Yianni and i want it to Thank you for promoting physics and for your talent as a teacher! I followed the NESTOR Project here in Pylos Greece and neutrinos are really fascinating! Observing a Supernova is great as long as it does not happen close to us! 🙂
Hello Dr Don Lincoln. Happy New year🥳
Glad to see ya back and thanks for another interesting video. Other than accounting for pretty much a rounding error, what purpose do you guys think neutrino's serve since they don't seem to interact much?
Nice one don and team!
thank you!!
Can't believe I didn't discover this great channel till now.
The Sanford Underground Research Facility (SURF), or Sanford Lab, is an underground laboratory in Lead, South Dakota. The deepest underground laboratory in the United States, it houses multiple experiments in areas such as dark matter and neutrino physics research, biology, geology and engineering. There are currently 28 active research projects housed within the facility.
It would be really interesting to see a second star for a few days; during the day.
Well done.
The most refined not to mention mellifluous opening and closing title cards out there! Also, most intriguing expansion into astrophysics.
Really nice👍
Good video thanks🙃
Dr Lincoln has the coolest t-shirts 😎
I'd argue that a quasar is even more dramatic/energetic than a supernova. Anyhow, I love your vids Dr. Don!
great video as always. you may wanna consider running a despill on the footage of Don so he doesn't look like he's turning into the Hulk mind.
I really need the full intro theme.
I saw sanduleka when it went supernova back in 87.
Thankyou
Neutrinos are cool, I always get a kick when one hits my optic nerve. It's like, that one's for you, man.
So, the photons produced by core collapse take about an hour or two to propagate to the 'surface' of the star and scream off into space at their prescribed speed limit. Considering the photon density, the matter they interact with on their journey through the star's outer layers must be heated to extreme temperatures and pressures if the overall photon pulse is as bright as all the light the star ever previously emitted. Such being the case, what fraction of C is the gaseous material expanding at?
Happy new year Dr. Don! Thank you for what amazing videos you introduced to us. Why can't mass of an object effect the speed of an object ?. As we increase the mass of an object, the speed of the body will decrease. Such that, mass of an object is inversely proportional to the speed ( m = k/v or v=k/m where k is constant). Please I want some explanations.
My fave teacher....
i love this guy
If photons created in the core of the sun take 1000s of years to reach the surface, does that mean we are actually seeing the sun as it was 1000s of years ago despite being only 8 light min away?
@Pyxis10
Жыл бұрын
No, the photons also get reabsorbed and emitted constantly on their way up so the ones that have a straight shot out aren't quite the same as they were when they started at the core.
@R055LE.1
Жыл бұрын
It's technically not the same light as what was emitted in the core, that's why it takes so long. But more importantly the light that gets here is still leaving the surface of the star after having interacted with it, and beyond that there's so much more light that reaches us from the surface directly, that there's no time delay shenanigans. Physicists just say "it takes 1000s of years for that light to reach the surface" as a shorthand for "the electromagnetic energy on an escape vector from the core of the star is emitted as a photon, and over 1000s of years of being transmitted, absorbed and re-emited the energy finally escapes as a photon from the surface."
@hillaryclinton2415
Жыл бұрын
Good question tho...
I don't understand half of what you say. But the half I do.... I find fascinating. 😃
@CUBOSH
Жыл бұрын
thats the best place to be. if you knew everything he was saying then you would not be learning
@eatshitlarrypage.3319
Жыл бұрын
Wikipedia helps a lot, too. If you hear a term you don't understand, wiki it!
Another interesting video! You said perhaps supernovae are the most dramatic events in the iniverse…aren’t black hole collisions even more so?
@narfwhals7843
Жыл бұрын
There isn't really much going on in black hole collisions. Just spacetime swirling around. Now neutron star collisions on the other hand... There's actual _stuff_ in there.
Astronomy in a Fermilab video is a rare day.
Hi, Dr. Lincoln. Say a star went supernova behind Sagittarius A* relative to us. Would neutrinos lens around the black hole in a similar way to light, and if so, would we be able to detect that?
Hello ! Thank you for this interesting video. Question: I was wondering if, (a bit like (astro)physicists want to do with gravitational waves from neutron star or black hole mergers (if I understood correctly)), they could use massive neutrino detection, by triangulation, to quickly direct telescopes to the sector of the sky where they might have the opportunity to observe the supernova.
@drdon5205
Жыл бұрын
They do that already.
I saw on Dr. Becky's channel that there's a paper going through peer review (as of January 2024) that suggests Betelgeuse will actually go supernova within the next few decades. If true, hopefully it's after we get the new detectors up and running.
It produces enough light to EVENTUALLY be seen billions of light years away…to be seen billions of years later, long after the star is a icy cinder.
He had me up until 6:30 when we were talking about 70,000 tons of Argon being used on our next top of the line neutrino telescope... Is there even 70,000 tons of argon available to be withdrawn from the earth? Doesn't seem very plausible to throw out the reasonable number of 70,000 when we're correlating such a number to the availability of ""tons of super rare argon??!?"" Other than that very good video 10 out of 10 brother-!!
@kamcashman
Жыл бұрын
Comprehending how much potassium it would take in order to derive 70,000 tons of it at less than 100° Kelvin temperature.., at God knows what pressure it would always need to remain at.... Really feels almost uncomprehendible no matter how you overthink it. And let's not try to figure out the maths of how expensive one cubic foot of liquid argon gas works out to be even when buying in bulk - especially when you're extrapolating up from one cubic foot up to something like 70 billion grams of liquid argon gas approximately/
@drdon5205
Жыл бұрын
Argon makes up 1% of the Earth's atmosphere. So it is hardly "super rare."
What is written on the blackboard in the background? A recipe for supernova chili?
In my first glance, I was like woah Bolsonaro is talking about space and supernova!
Sir why does a change in magnetic flux induce EMF ?
I like that tune. I should've probably said I like these videos first really. Take it as read that I do. Still a good tune though.
Dr. Don: Are there differences in the neutrino formation or distribution from super nova events that arise from a neutron star collapse as distinguished from a supernova event which arises from a black hole collapse? In the former, gravity is not strong enough to prevent light (electromagnetic waves) from escaping. But in the later, the gravity is so strong that even light can’t escape. Would there be more neutrinos from the lighter less dense neutron star than from the heaver more dense black hole? Or would the black hole prevent even the escape of even neutrinos? Respectfully, W.S.
@drdon5205
Жыл бұрын
there are probably energy differences
Will there be tours available.
@drdon5205
Жыл бұрын
Eventually
@Christian-jz3xt
Жыл бұрын
@@drdon5205 Awesome. I have an 8 year old special needs child who is absolutely looking forward to it. He watches all of your videos... not sure if he understands it all, but he watches and points out the building every time we're on Roosevelt passing by
The tesseract as an example can people see the geometry inside the cube? Can people see this geometry inside energy or light? Can people see into this fourth dimension?
Can the neutrinos characteristics be processed to give a rough "picture" ? That would be cool.
@drdon5205
Жыл бұрын
The energy and arrival time give some information
Do blackhole or neutron star collision give off neutrinos?
So what information can be gleaned from supernovae neutrinos?
There was a supernova just a few weeks ago, caught on telescopes!! Just a few months after this video was uploaded. What are the chances 😄
How far away can a supernova be before we can't detect its gravitational waves anymore? Or alternatively, how close does a supernova have to be for us to detect its gravitational waves?
Great video as always Dr Lincoln! I have a question... In theory light can make a blackhole (kugelblitz) assuming that's true, does that mean light can bend space-time (create gravity) through its energy and momentum? If so, is this taken into consideration when measuring the spin of galaxies and lensing seen in the intergalactic medium? Could this be what creates the signature of dark matter?
@KuK137
Жыл бұрын
Light can bend space time yes. And no, this is not taken into consideration because light density is tiny compared to matter. Dark matter outweighs the effects of normal matter by orders of magnitude, to have enough light to replicate this every star in Milky Way would need to be as bright as a small supernova...
@radiancelux
Жыл бұрын
@@KuK137 thanks for the reply
I would look stellar! ;)
Are the different types of neutrinos able to be detected from supernova compared to the lab created ones?
@drdon5205
Жыл бұрын
In principle, yes. Depends on the specifics of the detector
@TheDhaval
Жыл бұрын
Yes, they detect all kinds of neutrinos. But, the majority of neutrinos are electron neutrinos.
Great video, thank you, Don! Gotta ask though... where is Kristy?
@drdon5205
Жыл бұрын
She is now a professor at a prestigious university.
How can energy released when star implodes/collapses be more than energy released when fusion is happening ? where does that imploding energy originates from ?
1:24 and beam.. uranium etc becomes a thing....
❤️
Can the current equipment detect the direction the nutrinos come from? Or do we link the different detectors to know by time difference the direction? If not then could we? What would the challenges be?
@Lucius_Chiaraviglio
Жыл бұрын
Yes, many of the current neutrino detectors (including at least most of the ones described in the video) can tell the direction the neutrinos came from, by seeing which way they induce Cerenkov radiation and/or particle showers (the latter for highly energetic neutrinos). I don't know how good the resolution is -- in the comment sections of some other videos, I had thought maybe we could use these to image the neutrino emission of supermassive black hole accretion disks, but some people responded that this is way too optimistic with our current neutrino detector technology.
@spindoctor6385
Жыл бұрын
@@Lucius_Chiaraviglio Thanks mate, I just watched a PBS spacetime video that suggested exactly the same thing. (It has been a four hour rabbit hole and counting) The title was mapping black holes by catching neutrinos, released about a month ago, if you are interested.
@Lucius_Chiaraviglio
Жыл бұрын
@@spindoctor6385 This one? kzread.info/dash/bejne/daihpLxmg5W4Y5M.html
@spindoctor6385
Жыл бұрын
@@Lucius_Chiaraviglio Yeah that is the one. Sorry I messed up the title a little.
Ice Cube is also neutrino detector, isn't it? Why isn't it mentioned?
Can these detectors get directional info?
@MajorHavoc214
Жыл бұрын
That is a definite maybe. It all depends if the neutrinos interact with the liquid. And that is a big if.
@michaelsommers2356
Жыл бұрын
Yes. Since even the Earth doesn't block neutrinos, they have to get some idea of where the neutrinos are coming from to make sure that they are looking at the neutrinos they want to look at.
Can you aim neutrinos from a particle collider at a neutrino detector on the other side of the Earth where it can be detected?
@johannageisel5390
Жыл бұрын
Yes they did that. I think that's how they figured out netrinos changing into other type of neutrinos.
Why would the light flash outran the neutrinos if they were very heavy?
It's still amazing to consider the simple fact that if we detected a supernova tomorrow, it actually blew up hundreds, or thousands, or tens of thousands (or more!) of years ago.
SNOWLab in Sudbury was not mentioned in the available neutrino observatories. Has it stopped research?
@drdon5205
Жыл бұрын
SNO is still working. It's just not a big detector and will therefore see few neutrinos.
1:00 You mean "the core of the star turns off". The word "Sun" refers to our star. Other stars are just called "stars".
DUNE vs. HyperK 🤝please no competition.
It already blew up thousands of years ago. Now we just have to wait for the light to come to us 😀
5:44 that's not the Milky Way, obviously. It is the Andromeda galaxy, our closest big neighbor.
👍🏻
A supernova explodes somewhere in the universe every second
We can see inside anything just by listening
I have perfect vision and my retinas are healthy, but super rarely I'll see a flash while laying in bed with my eyes closed, rare as in maybe three times so far in my life.
Mmm neutrinos & cheese dip.....my fav. Of course you can look inside a supernova, just ask.
👍🏼👍🏼👍🏼
Can you pls tell me why night is not as bright as day...pls make a video about it...when stars ⭐ like proxima century is 4.3 light years away from us
@narfwhals7843
Жыл бұрын
Night is darker than day because the *by far* brightest object we can see in the sky is our sun. At night we can not see the sun, because the earth is in the way, so it is significantly darker.
How do we know that detecting a bunch of neutrinos a few hours before supernova was really causally linked and not just a coincidence since there was only one measurement?
@jamesharmer9293
Жыл бұрын
There were three different measurements from three different sites.
Sir what about hyper nova
@drdon5205
Жыл бұрын
Them too.
You said "beetleguise" three times!
I'm disappointed doctor Lincoln... 2-3 years ago you were posting regularly every week and now it's from time to time:(. Were yearning the knowledge from you, your visits are great. Keep it up (hopefully more frequently;).
How would ICECube factor in in case of a Supernova? Can they detect these Neutrinos, too?
@drdon5205
Жыл бұрын
Yes.
As long as no star below 100ly distance goes supernova ^^
Why the IMB detected nothing below 20? Why the Kamiokande detected more on the region 20 and below? Baksan & Kamiokande more sensitive than IMB or the IMB somehow overloaded?
@drdon5205
Жыл бұрын
Different detectors have different capabilities. And statistics comes into play as well
@jkinkamo
Жыл бұрын
@@drdon5205 Ok, thanks, very interesting. So, in this 1987 case DUNE would have detected 120 neutrinos on its own. I guess majority of them still on "high energy region", and abt 15 %...20 % btw 6 & 12 secs.
@drdon5205
Жыл бұрын
I cannot verify that DUNE number. It may be right, but I simply don't know
@jkinkamo
Жыл бұрын
@@drdon5205 OK, thanks.
@jkinkamo
Жыл бұрын
I read my old notes from the Schmidt & Francis lectures of ANU. Fermilab should re-run those same calculations in some video in order to "prove" that this 1987 A sent 30 trillion neutrinos for every square meter.
If you could somehow capture the neutrino burst I bet you could.
Can you see inside a supernova? Sure can. Just put it through an MRI.