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: El descobriment que podria reescriure la física

Filmed:
1,865,923 views

El 17 de març de 2014 un grup de físics va anunciar un descobriment apassionant: les dades que evidencien el concepte d'inflació còsmica, un indici del Big Bang. Per als que no són especialistes en física, què vol dir això? L'equip de TED va demanar a l'Allan Adams que expliqués breument els resultats en aquesta xerrada improvisada il·lustrada per Randall Munroe de 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 deepprofund into the night skycel,
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Si mireu profundament el cel nocturn
veureu estrelles,
00:16
you see starsestrelles,
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i si mireu més enllà,
veureu més estrelles,
00:18
and if you look furthermés lluny, you see more starsestrelles,
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i més enllà, galàxies,
i més enllà, més galàxies.
00:20
and furthermés lluny, galaxiesgalàxies, and
furthermés lluny, more galaxiesgalàxies.
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8608
2159
00:22
But if you keep looking furthermés lluny and furthermés lluny,
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Però si continueu mirant més i més enllà,
al final no veureu res,
durant una bona estona.
00:26
eventuallyeventualment you see nothing for a long while,
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00:29
and then finallyfinalment you see a
faintfeble, fadingesvaïment afterglowAfterglow,
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I llavors, finalment, veureu
una lleugera postluminiscència debilitant-se,
i és la postluminiscència del Big Bang.
00:34
and it's the afterglowAfterglow of the BigGran BangExplosió.
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00:37
Now, the BigGran BangExplosió was an eraèpoca in the earlyaviat universeunivers
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El Big Bang va ser
una època de l'univers primigeni
00:40
when everything we see in the night skycel
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on tot el que ara veiem al cel nocturn
00:42
was condensedcondensada into an incrediblyincreïblement smallpetit,
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es trobava condensat
en una massa increïblement petita,
00:44
incrediblyincreïblement hotcalenta, incrediblyincreïblement roilingroiling massmassa,
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increïblement calenta,
i increïblement agitada.
I d'aquesta en va sorgir
tot el que veiem ara.
00:48
and from it sprungsorgit everything we see.
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00:51
Now, we'vetenim mappedassignada that afterglowAfterglow
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Hem localitzat aquesta postluminiscència
00:54
with great precisionprecisió,
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amb una gran precisió,
i amb "nosaltres",
vull dir "altres".
00:56
and when I say we, I mean people who aren'tno ho són me.
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2044
00:58
We'veHem mappedassignada the afterglowAfterglow
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Hem localitzat la postluminiscència
amb una precisió espectacular,
01:00
with spectacularespectacular precisionprecisió,
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01:01
and one of the shocksxocs about it
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i una de les coses impactants
01:02
is that it's almostgairebé completelycompletament uniformuniforme.
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és que és gairebé del tot uniforme.
A 14.000 milions d'anys llum cap allà
01:05
FourteenCatorze billionmil milions lightllum yearsanys that way
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i a 14.000 milions d'anys llum cap allà,
01:07
and 14 billionmil milions lightllum yearsanys that way,
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01:09
it's the samemateix temperaturetemperatura.
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hi ha la mateixa temperatura.
01:11
Now it's been 14 billionmil milions yearsanys
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Han passat 13.000 milions d'anys
01:14
sincedes de llavors that BigGran BangExplosió,
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des del Big Bang,
01:16
and so it's got faintfeble and coldfred.
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i per això s'està debilitant i refredant.
Ara està a 2,7 graus kelvin.
01:18
It's now 2.7 degreesgraus.
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Però no són exactament 2,7 graus kelvin.
01:21
But it's not exactlyexactament 2.7 degreesgraus.
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01:23
It's only 2.7 degreesgraus to about
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Són 2,7 graus kelvin amb un marge
d'una centèsima de grau.
01:25
10 partsparts in a millionmilions.
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Per aquí una mica més calent,
i per aquí una mica més fred.
01:27
Over here, it's a little hottermés calent,
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01:28
and over there, it's a little coolermés fresc,
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I això és molt important
per a tothom en aquesta sala,
01:30
and that's incrediblyincreïblement importantimportant
to everyonetothom in this roomhabitació,
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perquè allà on hi havia més temperatura,
hi havia més matèria,
01:33
because where it was a little hottermés calent,
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01:35
there was a little more stuffcoses,
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i allà on hi havia més matèria,
01:36
and where there was a little more stuffcoses,
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ara hi tenim galàxies i cúmuls de galàxies,
01:38
we have galaxiesgalàxies and clustersclusters of galaxiesgalàxies
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01:40
and superclusterssupercúmuls
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i supercúmuls,
i tota l'estructura
que veiem en el cosmos.
01:41
and all the structureestructura you see in the cosmoscosmos.
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01:44
And those smallpetit, little, inhomogeneitiesinhomogeneities,
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I totes aquelles petites inhomogeneïtats
01:47
20 partsparts in a millionmilions,
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de 20 parts per milió,
01:49
those were formedformat by quantumquantum mechanicalmecànic wigglesWiggles
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van formar-se per fluctuacions
de la mecànica quàntica
01:52
in that earlyaviat universeunivers that were stretcheds'estenia
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en aquell univers primigeni
que es va expandir ocupant tot el cosmos.
01:54
acrossa través de the sizemida of the entiretot cosmoscosmos.
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01:56
That is spectacularespectacular,
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Això és impressionant,
i no és el que van descobrir dilluns.
01:58
and that's not what they foundtrobat on MondayDilluns;
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01:59
what they foundtrobat on MondayDilluns is coolermés fresc.
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El que van descobrir dilluns
és encara millor.
02:02
So here'sheus aquí what they foundtrobat on MondayDilluns:
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Això és el que van descobrir dilluns:
02:04
ImagineImaginar you take a belltimbre,
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Imagineu que agafeu una campana,
i que la colpegeu amb un martell.
02:07
and you whackcolpejar the belltimbre with a hammermartell.
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02:09
What happenspassa? It ringsanells.
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Què passa? Que sona.
02:11
But if you wait, that ringingsonar fadess'esvaeix
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Però si espereu, el repic s'atenua
02:13
and fadess'esvaeix and fadess'esvaeix
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i s'atenua més i més
02:14
untilfins a you don't noticeavís it anymoremés.
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fins que ja no es pot sentir.
Aquell univers primigeni
era increïblement dens,
02:16
Now, that earlyaviat universeunivers was incrediblyincreïblement densedens,
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com el metall,
02:19
like a metalmetall, way densermés densa,
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més dens encara,
i si l'haguéssim colpejat,
hauria repicat.
02:21
and if you hitcolpejar it, it would ringanell,
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Però el repic hauria estat
l'estructura de l'espai-temps en sí,
02:23
but the thing ringingsonar would be
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02:25
the structureestructura of space-timeespai-temps itselfella mateixa,
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i el martell seria la mecànica quàntica.
02:27
and the hammermartell would be quantumquantum mechanicsmecànica.
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02:30
What they foundtrobat on MondayDilluns
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El que van descobrir dilluns
02:32
was evidenceevidència of the ringingsonar
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és l'evidència del repic
02:35
of the space-timeespai-temps of the earlyaviat universeunivers,
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de l'espai-temps de l'univers primigeni,
02:37
what we call gravitationalgravitacional wavesonades
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el que anomenem ones gravitatòries
02:39
from the fundamentalfonamental eraèpoca,
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de l'era fonamental,
02:40
and here'sheus aquí how they foundtrobat it.
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i ara ve com ho van descobrir.
02:42
Those wavesonades have long sincedes de llavors fadedes va esvair.
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Aquestes ones fa molt que es van esvair.
02:45
If you go for a walkcaminar,
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Si aneu a passejar,
02:46
you don't wiggleremenar.
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no oscil·leu.
Aquestes ones gravitatòries
en l'estructura de l'univers
02:48
Those gravitationalgravitacional wavesonades in the structureestructura of spaceespai
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02:50
are totallytotalment invisibleinvisible for all practicalpràctic purposesfinalitats.
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són totalment invisibles
a efectes pràctics.
02:53
But earlyaviat on, when the universeunivers was makingelaboració
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Però al principi,
quan l'univers estava creant
aquesta última postluminiscència,
02:56
that last afterglowAfterglow,
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les ones gravitatòries
02:58
the gravitationalgravitacional wavesonades
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van alterar lleugerament
l'estructura de la llum que veiem.
03:00
put little twistsgirs in the structureestructura
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03:03
of the lightllum that we see.
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03:04
So by looking at the night skycel deepermés profund and deepermés profund --
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Per això, contemplant el cel nocturn
més i més profundament,
03:07
in factfet, these guys spentgastat
threetres yearsanys on the SouthSud PolePol
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de fet, aquests nois van passar-se
tres anys al pol Sud
03:10
looking straightrecte up througha través the coldestel més fred, clearestmés clara,
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mirant cap amunt a través de l'aire
més fred, clar i net que van poder trobar,
03:13
cleanestmés neta airaire they possiblypossiblement could find
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observant profundament
el cel nocturn i estudiant
03:15
looking deepprofund into the night skycel and studyingestudiant
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03:17
that glowresplendor and looking for the faintfeble twistsgirs
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aquella resplendor i buscant
aquestes lleugeres alteracions,
que eren el símbol,
03:21
whichquin are the symbolsímbol, the signalsenyal,
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la senyal,
03:23
of gravitationalgravitacional wavesonades,
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de les ones gravitatòries,
03:25
the ringingsonar of the earlyaviat universeunivers.
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el repic de l'univers primigeni.
03:27
And on MondayDilluns, they announcedanunciat
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I dilluns van anunciar
que ho havien trobat.
03:29
that they had foundtrobat it.
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I el que trobo més espectacular
03:31
And the thing that's so spectacularespectacular about that to me
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03:33
is not just the ringingsonar, thoughperò that is awesomeincreïble.
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és no només el repic,
tot i que això ja és increïble.
El que resulta tan emocionant,
03:36
The thing that's totallytotalment amazingsorprenent,
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03:37
the reasonraó I'm on this stageetapa, is because
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el motiu pel qual em trobo aquí,
03:39
what that tellsli diu us is something
deepprofund about the earlyaviat universeunivers.
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és que ens diu
quelcom més sobre l'univers.
03:43
It tellsli diu us that we
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Ens diu que nosaltres
03:44
and everything we see around us
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i tot el que ens rodeja
03:46
are basicallybàsicament one largegran bubblebombolla --
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és, bàsicament, una gran bombolla
03:49
and this is the ideaidea of inflationinflació
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—aquest és el concepte d'inflació—
03:51
one largegran bubblebombolla surroundedenvoltat by something elsealtra cosa.
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una gran bombolla
envoltada per alguna cosa més.
Això no és la prova definitiva de la inflació,
03:55
This isn't conclusiveconcloent evidenceevidència for inflationinflació,
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però res que no sigui la inflació
i que ho expliqui
03:57
but anything that isn't inflationinflació that explainsexplica this
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03:59
will look the samemateix.
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serà vist igual.
04:00
This is a theoryteoria, an ideaidea,
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Aquesta és una teoria, una idea,
04:02
that has been around for a while,
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que ja té un temps,
i pensàvem que mai la veuríem.
04:03
and we never thought we we'dnosaltres ho faria really see it.
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Per bons motius, crèiem que mai veuríem
04:05
For good reasonsraons, we thought we'dnosaltres ho faria never see
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04:07
killerassassí evidenceevidència, and this is killerassassí evidenceevidència.
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la prova irrefutable, i això ho és.
04:09
But the really crazyboig ideaidea
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2010
Però el més impressionant
04:11
is that our bubblebombolla is just one bubblebombolla
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és que la nostra bombolla
és tan sols una bombolla
04:14
in a much largermés gran, roilingroiling potolla of universaluniversal stuffcoses.
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dins d'aquesta gran olla
plena de matèria de l'univers.
04:18
We're never going to see the stuffcoses outsidefora,
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Mai arribarem a veure
el que hi ha a fora,
04:20
but by going to the SouthSud PolePol
and spendingdespesa threetres yearsanys
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però gràcies a haver passat
tres anys al pol Sud
04:23
looking at the detaileddetallada structureestructura of the night skycel,
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mirant l'estructura detallada
del cel nocturn,
04:25
we can figurefigura out
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podem imaginar-nos
04:27
that we're probablyProbablement in a universeunivers
that looksaspecte kindamable of like that.
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que probablement estem
en un univers semblant a això.
04:30
And that amazessorprèn me.
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I això em fascina.
Moltes gràcies.
04:33
ThanksGràcies a lot.
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04:34
(ApplauseAplaudiments)
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(Aplaudiments)
Translated by Alba Tovar
Reviewed by Alberto Belmonte

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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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