Semiclassical correlation functions in holography Kostya Zarembo “Strings, Gauge Theory and the LHC”, Copenhagen, 23.08.11 K.Z.,1008.1059.

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Presentation transcript:

Semiclassical correlation functions in holography Kostya Zarembo “Strings, Gauge Theory and the LHC”, Copenhagen, K.Z.,

AdS/CFT correspondence Yang-Mills theory with N=4 supersymmetry String theory on AdS 5 xS 5 background Maldacena’97

‘t Hooft coupling string tension planar / no quantum gravity string theory - classical

z 0 Gubser,Klebanov,Polyakov’98 Witten’98

Witten diagrams

z 0

Semiclassical operators: Berenstein,Maldacena,Nastase’02 Gubser,Klebanov,Polyakov’02 described by classical strings Ex: long “spin-chain” operators

Vertex operators: (1,1) operators in the sigma-model Callan,Gan’86 Correlation functions in string theory Semiclassically:

Spherical functions Polyakov’01 Tseytlin’03 S5S5 AdS 5 Vertex operators in AdS 5 xS 5

Semiclassical limit Semiclassical states: Sources in classical equations of motion:

Example: Dual to (same quantum numbers!):

de Boer,Ooguri,Robins,Tannenhauser’98 Boundary conditions:

Two-point functions Spectrum: Known from integrability exactly at large-N Bombardelli,Fioravanti,Tateo’09 Gromov,Kazakov,Vieira’09 Arutyunov,Frolov’09

Holographic two-point functions Buchbinder’10 Janik,Surowka,Wereszczynski’10 Buchbinder,Tseytlin’10 start with time-periodic (finite-gap) solution in global AdS Wick-rotate transform to Poincaré patch Two-point functions ↔ Spectrum ↔ Periodic solutions in global AdS generates solutions with correct boundary conditions classical string action produces the correct - -dependence of the correlator solutions are in general complex

Example: BMN string: Standard global-Poincaré map (AdS 3 ): Cartesian coordinates on R 3,1 Twisted map: Tsuji’06 Janik,Surowka,Wereszczynski’10

More general semiclassical states Gubser,Klebanov,Polyakov’02 Frolov,Tseytlin’03 … S5S5 global AdS 5 Periodic solutions in sigma-model ↔ Long operators in SYM Energy: Angular momenta: …

Finite-gap solutions Kazakov,Marshakov,Minahan,Z.’04 Normalization: Level matching: Scaling dimension:

vertex operators ↔ finite-gap solutions (?)

Three-point functions OPE coefficients: Simplest 1/N observables:

Three-point functions No solutions known

Simpler problem: Z.’10 Costa,Monteiro,Santos,Zoakos’10 Roiban,Tseytlin’10 Hernandez’10 Arnaudov,Rashkov’10 Georgiou’10 Lee,Park’10,11 Buchbinder,Tseytlin’10 Bak,Chen,Wu’11 Bissi,Kristjansen,Young,Zoubos’11 Arnaudov,Rashkov,Vetsov’11 Bai,Lee,Park’11 Alday,Tseytlin’11 Ahn,Bozhilov’11 Bozholov’11... create fat string creates slim string

General formalism big non-local operator that creates classical string Berenstein,Corrado,Fischler,Maldacena’98

metric perturbation due to operator insertion vertex operator OPE coefficient:

Chiral Primary Operators symmetric traceless tensor of SO(6) Dual to scalar supergravity mode on S 5 Wavefunction on S 5 : (spherical function of SO(6))

Kaluza-Klein reduction Kim,Romans,van Nieuwenhuizen’85 Lee,Minwalla,Rangamani,Seiberg‘98 Vertex operator:

Correlator of three chiral primaries Superconformal highest Spherical function:

Classical solution: OPE coefficient: Exact OPE coefficient of three CPO’s: Lee,Minwalla,Rangamani,Seiberg‘98 Agree at J>>k

Spinning string on S 5 Frolov,Tseytlin’03 Elliptic modulus: Conserved charges:

Dual to The concrete operator can be identified by comparing the finite-gap curve to Bethe ansatz Beisert,Minahan,Staudacher,Z.’03

OPE coefficient: What happens when k becomes large?

Saddle-point approximation Saddle-point equations: to ∞ fixed point

Overlapping regime of validity:

Exact solution with a spike: Z.’02 Describes for circular Wilson loop Solution for ?

Boundary conditions at the spike

Fine structure of the spike Regular solution without the spike

Solution on S 5 : Virasoro constraints: limit: Determine the position on the worldsheet, where the spike can be attached. The same as the saddle-point equation for the vertex operator!

Factorization Roiban,Tseytlin’10 Integration over σ i independent:

Integrability ∞ number of conservation laws Bookeeping of conserved charges:

Integrability in 3-point functions? conserved charges (known) Algebraic curves for external states + branching?

Weak coupling Escobedo,Gromov,Sever,Vieira’10 Caetano,Escobedo’11 Overlap of three spin chain states Certain resemblance to string field theory vertex Can be efficiently computed using ABA Still not enough to take the large-charge limit to compare to strong coupling Escobedo,Gromov,Sever,Vieira’10 Okuyama,Tseng’04

Questions Possible to compute the correlation functions (H – heavy semiclassical states, L – light supergravity state) How to calculate ? Can give a clue to exact solution… How to use integrability?  Vertex operators ↔ Classical Solutions ↔ Bethe ansatz  Boundary conditions for generic vertex operators Z.’10 Costa,Monteiro,Santos,Zoakos’10 Roiban,Tseytlin’10 Hernandez’10 Buchbinder,Tseytlin’10 ?