ABOUT THE SPEAKER
Allan Adams - Theoretical physicist
Allan 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.
More profile about the speaker
Allan Adams | Speaker | TED.com
TED2014

Allan Adams: The discovery that could rewrite physics

Allan Adams: Descoperirea care ar putea rescrie fizica

Filmed:
1,865,923 views

În 17 martie 2014 un grup de fizicieni a anunțat o descoperire îmbucurătoare: dovada concludentă pentru ideea de univers în expansiune, un indiciu al Big Bangului. Ce înseamnă asta pentru cei care nu sunt fizicieni? TED l-a rugat pe Allan Adams să explice pe scurt rezultatele, în această prelegere improvizată, ilustrată de Randall Munroe de la xkcd.
- Theoretical physicist
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 deepadâncime into the night skycer,
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Dacă priveşti cu atenţie cerul nopţii
00:16
you see starsstele,
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vezi stele,
00:18
and if you look furthermai departe, you see more starsstele,
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dacă te uiţi mai atent, vezi şi mai multe stele
00:20
and furthermai departe, galaxiesgalaxii, and
furthermai departe, more galaxiesgalaxii.
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mai departe sunt galaxiile, iar mai departe
sunt şi mai multe galaxii.
00:22
But if you keep looking furthermai departe and furthermai departe,
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dacă te uiţi mai departe şi tot mai departe,
00:26
eventuallyîn cele din urmă you see nothing for a long while,
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după o vreme nu mai vezi nimic,
00:29
and then finallyin sfarsit you see a
faintslab, fadingdecolorare afterglowamurg,
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până când, în cele din urmă,
vezi o sclipire slabă,
00:34
and it's the afterglowamurg of the BigMare BangBang.
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iar această sclipire e urma Big Bang-ului.
00:37
Now, the BigMare BangBang was an eraeră in the earlydin timp universeunivers
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Big Bangul a fost o perioadă
de la începutul universului
00:40
when everything we see in the night skycer
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când tot ceea ce vedem pe cerul nopţii
00:42
was condensedcondensat into an incrediblyincredibil smallmic,
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era condensat în ceva incredibil de mic,
00:44
incrediblyincredibil hotFierbinte, incrediblyincredibil roilingroiling massmasa,
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incredibil de fierbite, o masă în rotaţie,
00:48
and from it sprungrăsărit everything we see.
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din care au răsărit toate celelalte.
00:51
Now, we'vene-am mappedmapate that afterglowamurg
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Am pus pe hartă sclipirea asta
00:54
with great precisionprecizie,
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cu mare precizie.
00:56
and when I say we, I mean people who aren'tnu sunt me.
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Când spun "noi" mă refer la oameni
printre care nu sunt şi eu.
00:58
We'veNe-am mappedmapate the afterglowamurg
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Am pus de hartă sclipirea
01:00
with spectacularspectaculos precisionprecizie,
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cu o precizie extraordinară.
01:01
and one of the shocksşocuri about it
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iar unul dintre şocurile legate de asta
01:02
is that it's almostaproape completelycomplet uniformuniformă.
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este că-i aproape în întregime uniformă.
01:05
FourteenPaisprezece billionmiliard lightușoară yearsani that way
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La 14 bilioane de ani lumină în direcţia aceea,
01:07
and 14 billionmiliard lightușoară yearsani that way,
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şi la 14 bilioane de ani lumină în partea aceea,
01:09
it's the samela fel temperaturetemperatura.
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este aceeaşi temperatură.
01:11
Now it's been 14 billionmiliard yearsani
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Au trecut 13 bilioane de ani
01:14
sincede cand that BigMare BangBang,
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de la Big Bang,
01:16
and so it's got faintslab and coldrece.
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de aceea s-a răcit şi s-a estompat.
01:18
It's now 2.7 degreesgrade.
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Acum are 2,7 grade.
01:21
But it's not exactlyexact 2.7 degreesgrade.
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Dar nu chiar 2,7 grade fix.
01:23
It's only 2.7 degreesgrade to about
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Are doar 2,7 grade
01:25
10 partspărți in a millionmilion.
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în a 10 parte dintr-un milion.
01:27
Over here, it's a little hottermai fierbinte,
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Aici este un pic mai fierbinte,
01:28
and over there, it's a little coolerrăcitor,
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iar aici e un pic mai rece.
01:30
and that's incrediblyincredibil importantimportant
to everyonetoata lumea in this roomcameră,
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Asta e important pentru toţi din această sală,
01:33
because where it was a little hottermai fierbinte,
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pentru că unde era un pic mai fierbinte,
01:35
there was a little more stuffchestie,
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existau condensări,
01:36
and where there was a little more stuffchestie,
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şi unde era puțin mai mult decât în alte părți,
01:38
we have galaxiesgalaxii and clustersclustere of galaxiesgalaxii
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s-au format galaxii, roiuri de galaxii
01:40
and superclusterssuperclusters
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şi super-roiuri
01:41
and all the structurestructura you see in the cosmoscosmos.
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şi toate celelalte structuri
pe care le vedeţi în cosmos.
01:44
And those smallmic, little, inhomogeneitiesproces,
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toate aceste mici, mărunte neomogenităţi
01:47
20 partspărți in a millionmilion,
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20 de părţi într-un milion
01:49
those were formedformat by quantumcuantic mechanicalmecanic wigglesÎncreţeşte
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au fost formate prin oscilaţii ale mecanicii cuantice,
01:52
in that earlydin timp universeunivers that were stretchedîntins
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în perioada de început a universului care s-a întins
01:54
acrosspeste the sizemărimea of the entireîntreg cosmoscosmos.
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de-a lungul întregului cosmos.
01:56
That is spectacularspectaculos,
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Acest lucru este spectaculos,
01:58
and that's not what they foundgăsite on MondayLuni;
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dar nu este ceea ce au descoperit lunea trecută;
01:59
what they foundgăsite on MondayLuni is coolerrăcitor.
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ce au descoperit luni este mai grozav.
02:02
So here'saici e what they foundgăsite on MondayLuni:
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Iată ce au descoperit luni:
02:04
ImagineImaginaţi-vă you take a bellclopot,
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Imaginaţi-vă că luaţi un clopoţel
02:07
and you whacklovi cu putere the bellclopot with a hammerciocan.
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pe care îl loviţi cu un ciocan.
02:09
What happensse întâmplă? It ringsinele.
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Ce se întâmplă? Sună.
02:11
But if you wait, that ringingde apel fadesestompează
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Dacă aşteptaţi, zgomotul se stinge
02:13
and fadesestompează and fadesestompează
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şi se stinge şi se stinge
02:14
untilpana cand you don't noticeînștiințare it anymoremai.
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până când nu îl mai auziţi.
02:16
Now, that earlydin timp universeunivers was incrediblyincredibil densedens,
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Universul primar era incredibil de dens,
02:19
like a metalmetal, way densermai dens,
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ca un metal, mult mai dens,
02:21
and if you hitlovit it, it would ringinel,
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şi dacă l-am fi lovit ar fi sunat,
02:23
but the thing ringingde apel would be
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dar sunetul ar fi fost
02:25
the structurestructura of space-timespatiu-timp itselfîn sine,
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însăşi structura spaţiului,
02:27
and the hammerciocan would be quantumcuantic mechanicsmecanica.
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iar ciocanul ar fi fost mecanica cuantică.
02:30
What they foundgăsite on MondayLuni
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Luni au descoperit
02:32
was evidenceevidență of the ringingde apel
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o dovadă a vibrației
02:35
of the space-timespatiu-timp of the earlydin timp universeunivers,
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lăsată de spaţiu-timp de la începutul universului,
02:37
what we call gravitationalgravitaționale wavesvaluri
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ceea ce numim unde gravitaţionale,
02:39
from the fundamentalfundamental eraeră,
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din timpurile primordiale,
02:40
and here'saici e how they foundgăsite it.
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şi iată cum au descoperit asta.
02:42
Those wavesvaluri have long sincede cand fadedstins.
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Acele unde s-au stins de multă vreme
02:45
If you go for a walkmers pe jos,
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Dacă mergi la o plimbare,
02:46
you don't wigglewiggle.
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nu te clatini.
02:48
Those gravitationalgravitaționale wavesvaluri in the structurestructura of spacespaţiu
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Aceste unde gravitaţionale din structura spaţiului
02:50
are totallyintru totul invisibleinvizibil for all practicalpractic purposesscopuri.
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sunt total invizibile pentru toate scopurile practice.
02:53
But earlydin timp on, when the universeunivers was makingluare
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Dar la începuturi, când universul
02:56
that last afterglowamurg,
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lansa ultima sclipire,
02:58
the gravitationalgravitaționale wavesvaluri
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undele gravitaţionale
03:00
put little twistsrăsturnări de situaţie in the structurestructura
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au impregnat mici diferențe în structura
03:03
of the lightușoară that we see.
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luminii pe care o vedem.
03:04
So by looking at the night skycer deeperMai adânc and deeperMai adânc --
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Prin urmare când ne uităm t
ot mai adânc la cerul nopţii,
03:07
in factfapt, these guys spenta petrecut
threeTrei yearsani on the SouthSud PolePolul
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cercetătorii şi-au petrecut 3 ani la Polul Sud
03:10
looking straightdrept up throughprin the coldestmai rece, clearestmai clar,
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uitându-se sus prin cel mai rece, cel mai clar,
03:13
cleanestcurate airaer they possiblyeventual could find
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cel mai curat aer pe care l-au putut găsi
03:15
looking deepadâncime into the night skycer and studyingstudiu
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uitându-se adânc spre cerul nopţii şi studiind
03:17
that glowstrălucire and looking for the faintslab twistsrăsturnări de situaţie
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radiația asta şi diferențele slabe
03:21
whichcare are the symbolsimbol, the signalsemnal,
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care sunt simbolul, semnalul,
03:23
of gravitationalgravitaționale wavesvaluri,
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undelor gravitaţionale,
03:25
the ringingde apel of the earlydin timp universeunivers.
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vibrația universului primordial.
03:27
And on MondayLuni, they announceda anunțat
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Luni au anunţat
03:29
that they had foundgăsite it.
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că l-au găsit.
03:31
And the thing that's so spectacularspectaculos about that to me
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Pentru mine este spectaculos
03:33
is not just the ringingde apel, thoughdeşi that is awesomeminunat.
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nu doar vibrația, deşi este şi asta grozavă.
03:36
The thing that's totallyintru totul amazinguimitor,
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Lucrul cu adevărat uimitor
03:37
the reasonmotiv I'm on this stageetapă, is because
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şi motivul pentru care sunt pe scenă
03:39
what that tellsspune us is something
deepadâncime about the earlydin timp universeunivers.
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este că ne spune ceva profund
despre universul primordial.
03:43
It tellsspune us that we
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Ne spune că noi
03:44
and everything we see around us
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şi tot ce vedem în jurul nostru
03:46
are basicallype scurt one largemare bubblebalon --
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suntem de fapt un balon mare--
03:49
and this is the ideaidee of inflationumflare
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şi asta este ideea inflației --
03:51
one largemare bubblebalon surroundedinconjurat by something elsealtfel.
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un balon mare înconjurat de altceva.
03:55
This isn't conclusiveconcludente evidenceevidență for inflationumflare,
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Dar nu este concludent pentru inflație,
03:57
but anything that isn't inflationumflare that explainsexplică this
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dar ceva care nu este inflație şi explică asta
03:59
will look the samela fel.
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ar arăta fix la fel.
04:00
This is a theoryteorie, an ideaidee,
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Este o teorie, o idee,
04:02
that has been around for a while,
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care circulă de ceva vreme,
04:03
and we never thought we we'dne-am really see it.
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dar nu credeam să o vedem cu adevărat.
04:05
For good reasonsmotive, we thought we'dne-am never see
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Credeam că n-o vom vedea niciodată,
din motive temeinice
04:07
killerucigaş evidenceevidență, and this is killerucigaş evidenceevidență.
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dovada de netăgăduit, iar asta e acea dovadă.
04:09
But the really crazynebun ideaidee
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Însă ideea cu adevărat nebunească
04:11
is that our bubblebalon is just one bubblebalon
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este că balonul nostru e doar o bulă
04:14
in a much largermai mare, roilingroiling potoală of universaluniversal stuffchestie.
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într-un ocean mult mai mare de bule în univers.
04:18
We're never going to see the stuffchestie outsidein afara,
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Nu vom vedea niciodată lucrurile din afară,
04:20
but by going to the SouthSud PolePolul
and spendingcheltuire threeTrei yearsani
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dar mergând la Polul Sud, petrecând 3 ani acolo,
04:23
looking at the detaileddetaliate structurestructura of the night skycer,
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uitându-ne la structura detaliată a cerului nopţii,
04:25
we can figurefigura out
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ne putem da seama,
04:27
that we're probablyprobabil in a universeunivers
that looksarată kinddrăguț of like that.
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că suntem într-un univers care arată probabil aşa.
04:30
And that amazesuimeste me.
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Iar acest lucru mă uimeşte.
04:33
Thanksmulţumesc a lot.
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Mulţumesc mult.
04:34
(ApplauseAplauze)
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(Aplauze)
Translated by Daniela Dumitrascu
Reviewed by Ariana Bleau Lugo

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ABOUT THE SPEAKER
Allan Adams - Theoretical physicist
Allan 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.
More profile about the speaker
Allan Adams | Speaker | TED.com

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