TED2014
Allan Adams: The discovery that could rewrite physics
Alan Adams (Allan Adams): Otkriće koje bi moglo da iz korena izmeni fiziku
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17. marta 2014., grupa fizičara objavila je uzbudljivo otkriće - ključne podatke za ideju o naduvanom univerzumu, dokaz za Veliki prasak. Šta to znači za one koji nisu fizičari? TED je zamolio Alana Adamsa da ukratko objasni rezultate, u ovom improvizovanom govoru koji je ilustrovao Rendal Manro sa sajta xkcd.
Allan Adams - Theoretical physicist
Allan Adams is a theoretical physicist working at the intersection of fluid dynamics, quantum field theory and string theory. Full bio
Allan Adams is a theoretical physicist working at the intersection of fluid dynamics, quantum field theory and string theory. Full bio
Double-click the English transcript below to play the video.
00:12
If you look deep into the night sky,
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Ako se duboko zagledate u nebo noću,
vidite zvezde,
00:16
you see stars,
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00:18
and if you look further, you see more stars,
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ako pogledate dalje, videćete još zvezda,
00:20
and further, galaxies, and
further, more galaxies.
further, more galaxies.
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dalje su galaksije,
a dalje od toga još galaksija.
a dalje od toga još galaksija.
00:22
But if you keep looking further and further,
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Ali ako nastavite da gledate
dalje i dalje,
dalje i dalje,
00:26
eventually you see nothing for a long while,
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u jednom trenutku nećete
videti ništa neko vreme
videti ništa neko vreme
00:29
and then finally you see a
faint, fading afterglow,
faint, fading afterglow,
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i onda konačno vidite slab sjaj
koji nestaje,
koji nestaje,
00:34
and it's the afterglow of the Big Bang.
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to je sjaj koji prati Veliki prasak.
00:37
Now, the Big Bang was an era in the early universe
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Veliki prasak je bio doba
u ranom periodu univerzuma
u ranom periodu univerzuma
00:40
when everything we see in the night sky
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kada je sve što vidimo na noćnom nebu
00:42
was condensed into an incredibly small,
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bilo zbijeno u neverovatno malu,
00:44
incredibly hot, incredibly roiling mass,
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neverovatno vrelu, zamućenu masu
00:48
and from it sprung everything we see.
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iz koje je nastalo sve što vidimo.
00:51
Now, we've mapped that afterglow
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Taj prateći sjaj smo mapirali
00:54
with great precision,
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sa velikom preciznošću,
00:56
and when I say we, I mean people who aren't me.
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a kada kažem "mi",
mislim na ljude koji nisu ja.
mislim na ljude koji nisu ja.
00:58
We've mapped the afterglow
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Mapirali smo prateći sjaj
01:00
with spectacular precision,
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sa spektakularnom preciznošću,
i jedan od šokova je to
i jedan od šokova je to
01:01
and one of the shocks about it
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01:02
is that it's almost completely uniform.
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što je skoro u potpunosti ujednačen.
01:05
Fourteen billion light years that way
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14 milijardi svetlostnih godina
u tom pravcu
u tom pravcu
01:07
and 14 billion light years that way,
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i još toliko u drugom pravcu,
01:09
it's the same temperature.
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temperatura je ista.
01:11
Now it's been 14 billion years
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Prošlo je 14 milijardi godina
01:14
since that Big Bang,
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od Velikog praska,
01:16
and so it's got faint and cold.
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tako da je on oslabio i ohladio se.
01:18
It's now 2.7 degrees.
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Sada je 2,7 stepeni.
01:21
But it's not exactly 2.7 degrees.
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Ali nije tačno toliko.
01:23
It's only 2.7 degrees to about
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Samo je 2,7 stepeni na otprilike
01:25
10 parts in a million.
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deseti deo miliona.
01:27
Over here, it's a little hotter,
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Ovde je malo vrelije,
01:28
and over there, it's a little cooler,
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a tamo je malo hladnije,
01:30
and that's incredibly important
to everyone in this room,
to everyone in this room,
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a to je veoma bitno
za sve u ovoj prostoriji,
za sve u ovoj prostoriji,
01:33
because where it was a little hotter,
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jer tamo gde je malo vrelije,
01:35
there was a little more stuff,
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tu je bilo malo više stvari,
01:36
and where there was a little more stuff,
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a gde je bilo malo više stvari,
01:38
we have galaxies and clusters of galaxies
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imali smo galaksije i skupove galaksija
01:40
and superclusters
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i superskupove
01:41
and all the structure you see in the cosmos.
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i svu strukturu koju vidite u kosmosu.
01:44
And those small, little, inhomogeneities,
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Te malene nehomogenosti,
01:47
20 parts in a million,
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20 delova miliona,
01:49
those were formed by quantum mechanical wiggles
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to se formiralo mrdanjem
u kvantnoj mehanici
u kvantnoj mehanici
01:52
in that early universe that were stretched
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u tom ranom univerzumu, i to se razvuklo
01:54
across the size of the entire cosmos.
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preko dužine celog kosmosa.
01:56
That is spectacular,
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To je spektakularno
01:58
and that's not what they found on Monday;
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i to nisu pronašli u ponedeljak,
01:59
what they found on Monday is cooler.
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ono što su tad pronašli
je još više kul.
je još više kul.
02:02
So here's what they found on Monday:
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Ovo su otkrili tada:
02:04
Imagine you take a bell,
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zamislite da uzmete zvono
02:07
and you whack the bell with a hammer.
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i udarite ga čekićem.
02:09
What happens? It rings.
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Šta se dešava?
Ono zvoni.
Ono zvoni.
02:11
But if you wait, that ringing fades
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Ali ako sačekate,
ta zvonjava se utišava
ta zvonjava se utišava
02:13
and fades and fades
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i polako slabi i slabi
02:14
until you don't notice it anymore.
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dok je više ne primećujete.
02:16
Now, that early universe was incredibly dense,
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Taj rani univerzum
je bio neverovatno gust,
je bio neverovatno gust,
02:19
like a metal, way denser,
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poput metala, i još gušći,
02:21
and if you hit it, it would ring,
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i zvonio bi kada ga udarite,
02:23
but the thing ringing would be
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ali ono što zvoni je bila
02:25
the structure of space-time itself,
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sama struktura prostor-vreme,
02:27
and the hammer would be quantum mechanics.
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a čekić bi bila kvantna mehanika.
02:30
What they found on Monday
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U ponedeljak su otkrili
02:32
was evidence of the ringing
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dokaz o zvonjavi
02:35
of the space-time of the early universe,
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prostor-vreme ranog univerzuma,
02:37
what we call gravitational waves
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ono što zovemo gravitacionim talasima
02:39
from the fundamental era,
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iz fundamentalnog doba,
02:40
and here's how they found it.
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a ovako su ih otkrili.
02:42
Those waves have long since faded.
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Ti talasi su davno utihnuli.
02:45
If you go for a walk,
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Ako se prošetate,
02:46
you don't wiggle.
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nećete mrdati.
02:48
Those gravitational waves in the structure of space
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Ti gravitacioni talasi u strukturi svemira
02:50
are totally invisible for all practical purposes.
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su apsolutno nevidljivi
za sve praktične primene.
za sve praktične primene.
02:53
But early on, when the universe was making
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Ali u ranom vremenu
kada je univerzum pravio
kada je univerzum pravio
02:56
that last afterglow,
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taj poslednji prateći sjaj,
02:58
the gravitational waves
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gravitacioni talasi
03:00
put little twists in the structure
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napravili su male vrtloge u strukturi
03:03
of the light that we see.
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svetla koje vidimo.
03:04
So by looking at the night sky deeper and deeper --
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Gledajući dublje i dublje u noćno nebo,
03:07
in fact, these guys spent
three years on the South Pole
three years on the South Pole
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zapravo, ovi ljudi su proveli
tri godine na Južnom polu
tri godine na Južnom polu
03:10
looking straight up through the coldest, clearest,
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gledajući pravo gore
kroz najhladniji, najjasniji
kroz najhladniji, najjasniji
03:13
cleanest air they possibly could find
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i najčistiji vazduh koji su mogli da nađu
03:15
looking deep into the night sky and studying
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i gledaju duboko u noćno nebo
i proučavajući
i proučavajući
03:17
that glow and looking for the faint twists
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taj sjaj i gledajući u blage vrtloge
03:21
which are the symbol, the signal,
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koji su znak i signal
03:23
of gravitational waves,
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gravitacionih talasa,
03:25
the ringing of the early universe.
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zvonjave ranog univerzuma.
03:27
And on Monday, they announced
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U ponedeljak su objavili
03:29
that they had found it.
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da su ga našli.
03:31
And the thing that's so spectacular about that to me
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Meni je tu spektakularna
03:33
is not just the ringing, though that is awesome.
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ne samo zvonjava, iako je i to super.
03:36
The thing that's totally amazing,
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Ono što je neverovatno,
03:37
the reason I'm on this stage, is because
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razlog zbog kojeg sam ovde,
03:39
what that tells us is something
deep about the early universe.
deep about the early universe.
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je što nam to kaže
nešto duboko o ranom univerzumu.
nešto duboko o ranom univerzumu.
03:43
It tells us that we
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Kaže nam da smo mi
03:44
and everything we see around us
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i sve oko nas
03:46
are basically one large bubble --
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zapravo jedan veliki mehur -
03:49
and this is the idea of inflation—
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i to je ova ideja naduvavanja -
03:51
one large bubble surrounded by something else.
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jedan veliki mehur
okružen nečim drugim.
okružen nečim drugim.
03:55
This isn't conclusive evidence for inflation,
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Ovo nisu konačni dokazi
o tom naduvavanju,
o tom naduvavanju,
03:57
but anything that isn't inflation that explains this
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ali sve što nije naduvavanje
a objašnjava ovo
a objašnjava ovo
03:59
will look the same.
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će izgledati isto.
04:00
This is a theory, an idea,
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Ovo je teorija, ideja
koja postoji već neko vreme
koja postoji već neko vreme
04:02
that has been around for a while,
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i nikada nismo mislili da
ćemo je zaista videti.
ćemo je zaista videti.
04:03
and we never thought we we'd really see it.
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04:05
For good reasons, we thought we'd never see
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Iz dobrih razloga, mislili smo
da nikada nećemo videti
da nikada nećemo videti
04:07
killer evidence, and this is killer evidence.
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odlične dokaze,
a ovo je upravo to.
a ovo je upravo to.
04:09
But the really crazy idea
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Ali je zaista luda ideja
04:11
is that our bubble is just one bubble
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da je naš mehur samo jedan mehur
04:14
in a much larger, roiling pot of universal stuff.
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u puno većem, zamućenom kazanu
stvari u univerzumu.
stvari u univerzumu.
04:18
We're never going to see the stuff outside,
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Nikada nećemo videti ono spolja,
04:20
but by going to the South Pole
and spending three years
and spending three years
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ali time što odemo na Južni pol
i provedemo tri godine
i provedemo tri godine
04:23
looking at the detailed structure of the night sky,
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posmatrajući detaljnu
strukturu noćnog neba,
strukturu noćnog neba,
04:25
we can figure out
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možemo da otkrijemo
04:27
that we're probably in a universe
that looks kind of like that.
that looks kind of like that.
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da smo verovatno u univerzumu
koji je nalik tome.
koji je nalik tome.
04:30
And that amazes me.
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I to me zapanjuje.
04:33
Thanks a lot.
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Hvala vam mnogo.
04:34
(Applause)
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(Aplauz)
ABOUT THE SPEAKER
Allan Adams - Theoretical physicistAllan Adams is a theoretical physicist working at the intersection of fluid dynamics, quantum field theory and string theory.
Why you should listen
Allan Adams is a theoretical physicist working at the intersection of fluid dynamics, quantum field theory and string theory. His research in theoretical physics focuses on string theory both as a model of quantum gravity and as a strong-coupling description of non-gravitational systems.
Like water, string theory enjoys many distinct phases in which the low-energy phenomena take qualitatively different forms. In its most familiar phases, string theory reduces to a perturbative theory of quantum gravity. These phases are useful for studying, for example, the resolution of singularities in classical gravity, or the set of possibilities for the geometry and fields of spacetime. Along these lines, Adams is particularly interested in microscopic quantization of flux vacua, and in the search for constraints on low-energy physics derived from consistency of the stringy UV completion.
In other phases, when the gravitational interactions become strong and a smooth spacetime geometry ceases to be a good approximation, a more convenient description of string theory may be given in terms of a weakly-coupled non-gravitational quantum field theory. Remarkably, these two descriptions—with and without gravity—appear to be completely equivalent, with one remaining weakly-coupled when its dual is strongly interacting. This equivalence, known as gauge-gravity duality, allows us to study strongly-coupled string and quantum field theories by studying perturbative features of their weakly-coupled duals. Gauge-gravity duals have already led to interesting predictions for the quark-gluon plasma studied at RHIC. A major focus of Adams's present research is to use such dualities to find weakly-coupled descriptions of strongly-interacting condensed matter systems which can be realized in the lab.Allan Adams | Speaker | TED.com