Marginal Deformations and Non-Integrability in String Theory

1. Marginal Deformations and Non-Integrability Konstantinos Zoubos University of Pretoria NITheP Associates Meeting Stellenbosch 19/09/2014 Based on arXiv:1311.3241 with D. Giataganas and L. Pando Zayas

2. Motivation: Non-perturbative QFT We would like to understand Quantum Field Theory at strong coupling Relevant for QCD: Chiral Symmetry Breaking, Confinement QCD is a Yang-Mills theory: S = 1 4 Z d4x Tr(FF)+ ; F = @A@Aig[A;A] A = Aa (Ta)i j is the gauge potential ; T 2 SU(3) Computations difficult when g is not small One approach is Lattice QFT ) Simulation We will use analytic methods coming from String Theory

3. N = 4 Super-Yang-Mills Add more (super)symmetry Field content: A; 1;2;3;4 ;X;Y; Z All in adjoint of SU(N) Superpotential WN=4 = gTr(X[Y; Z]) Potential V = j @W @X j2 + j @W @Y j2 + j @W @Z j2 This is a UV finite theory ) Conformally invariant Conformal group: [P;P] = 0 ; [P; L] = i(P P) ; [L; L] = i(L + L L L) [D;P] = iP ; [D;K] = iK ; [K;K] = 0 ; [K;P] = 2i(D L) ; [K; L] = i(K K)

4. Integrability in N = 4 SYM In 2002, J. Minahan and K. Zarembo discovered integrability in N = 4 SYM in the planar limit N ! 1 Observables: Gauge invariant operators, here in X;Y scalar sector O = Tr(XYXXYY ) L fields These can be mapped to a spin chain: The Dilatation operator is mapped to an integrable Hamiltonian (XXX Heisenberg chain) D = x@ ) H = XL i=1 ~Si ~Si+1 Anomalous Dimensions $ Energies of states

5. Boundaries of Integrability Conformal Invariance does not imply integrability Can we find CFT’s that move from integrable to non-integrable on varying a parameter? Leigh-Strassler deformations of N = 4 SYM WN=4 = gTr(X[Y; Z]) ! WLS = Tr X[Y; Z]q + h 3 X3+Y3+Z3 q-commutator: [Y; Z]q = YZ qZY

6. -deformation: q = e2i

7. ( = g; h = 0) Real

8. integrable. Complex

9. does not correspond to an integrable spin chain [Berenstein-Cherkis ’04] Proof?

10. The AdS/CFT correspondence N = 4 SYM is equivalent to String Theory on AdS5 S5 Any observable in gauge theory can be mapped to one in the higher-dimensional space Large N limit ) classical string theory Strong gauge coupling ) classical supergravity Integrability of N = 4 SYM implies integrable string motion

11. The Lunin-Maldacena geometry The dual of the

12. deformations was constructed in 2005 Deformed 5-sphere ds2 = R2 p H 2 4ds2 AdS5 + X3 i=1 (d2i + G2i d2i ) + (~ 2 + ~2)G21 22 23 X3 i=1 di !23 5 G = 1 1 + (~ 2 + ~2)Q ; Q = 21 22 +22 23 +21 23 ; H = 1+~2Q ;

13. = ~ i ~ B-field + dilaton fields as well We will consider integrability of classical string motion on this background Aim: Holographically show that the complex-beta Leigh-Strassler theory is not integrable

14. Analytic Non-integrability Consider a system of equations _~ x =~f (~x) Find one solution x = x(t) Linearise around x If the linearised system has no integrals of motion, neither does the full system 2d Hamiltonian systems: Integrals of motion $ differential Galois theory Kovacic algorithm: Determines if there are Liouvillian solutions If no solution: Hamiltonian system is not integrable If 9 solution: Inconclusive We will reduce string motion on LM to a 2d Hamiltonian system and apply the Kovacic algorithm [Basu-Pando Zayas]

15. Galois Theory - an example Consider the polynomial x2 4x + 1 = 0 p Roots x = 2 3 Write relations between the roots with rational coefficients x+ + x = 4 ; x+x = 1 The Galois group is the permutation group of these roots that preserves these relations If the Galois group is not solvable we cannot express the roots in terms of radicals Explains why no general formula for degree 5 Differential Galois theory: Differential equations instead of polynomials

16. Rewrite LM Metric ds2 = p H cosh2 dt2 + d2 + p H 0 @d2 + sin2 d2 + G X i;(jk) 2i 1 + ~ 2 + ~2 2j 2k d2i 1 A p HG + 2 ~ 2 + ~2 21 22 23 (d1d2 + d1d3 + d2d3) B-field B = R2 0 @~ G X ij ij di ^ dj ~12 1 23 1 A: (d ^ (d1 + d2 + d3))

17. String -model String action S = R2 2 Z d d 2 h

18. GMN@XM@

19. XN

20. BMN@XM@

21. XN i String ansatz t = t( ) ; = ( ) ; = (; ) ; = (; ) ; i = i (; ) Substituting: S = R2 4 Z dd p H cosh2 _t2 + 02 _2 + p H 02 _ 2 + sin2 02 _2 + X i Gii 02 i _ 2i + 2 X i;j;(ij) Gij 0i 0j _ i _ j 2 X i;j;(ij) Bij _ i0j 0i _ j 2 X i Bi _0i 0 _ i :

22. Pointlike String t = t( ) ; = ( ) ; = ( ) ; = ( ) ; Expected to be integrable 2Leff = 2 p H + p H_ 2 + p H sin2 _2; Fix plane = 2 ; _2 = 2 H Variation along normal plane = 2 + (t) Normal Variational Equation 22H0 1 z2 00(z) z0(z) + (z) = 0: Integrable!

23. Extended String t = t( ) ; = ( ) ; = ( ) ; 1 = 0 ; 2 = m ; 3 = 0 ; Effective lagrangian 2Leff = 2 p H + p H_ 2 + p H sin2 _2 p HA2m2 + 2B2 _m Fix plane = 0 ; _ 2 = 2 H , take

24. = i ~ = 0 + ( ) ! NVE (z)00+ 2 z (z)0+ m m ~2 + 2 z2 + z4 + 1 4~z z2 + 1 2 (z2 + 1) 4 (z) = 0 Kovacic: Not Integrable! (unless ~ = 0 or m = 0)

25. Numerical Analysis: Poincaré Sections Study the string hamiltonian numerically H = 2 2 p H + p2 2 p H + p2 p H sin2 2 B2m p H sin2 p+ 1 2 G22m2+ B2 2m2 p H sin2 2 Allows to consider general complex

26. Poincaré sections for ~ = 1, ~ = 0:001; ~ = 2:0; ~ = 10:0

27. Phase Space Trajectories ~ = 0 , ~ = 0:01 ; ~ = 1 ; ~ = 100 ~ = 0 , ~ = 0:001 ; ~ = 1 ; ~ = 10 Numerics confirms the picture we found analytically

28. Conclusions Showed, both analytically and numerically, that string motion of the dual background to the imaginary-

29. Leigh-Strassler theories is non-integrable Assuming AdS/CFT, shows that these theories are not integrable at strong coupling Matches expectations from weak coupling Nice application of analytic non-integrability approach

30. Outlook Study other theories, such as the h-deformation Check special 1-loop integrable points Implications of non-integrability for QFT? Study other backgrounds, e.g. with dynamical flavours Other heavy objects, e.g. D-branes Keep mapping the limits of integrability in 4d QFT

Marginal Deformations and Non-Integrability in String Theory

Recommended

Recommended

More Related Content

What's hot

What's hot (20)

Viewers also liked

Viewers also liked (7)

Similar to Marginal Deformations and Non-Integrability in String Theory

Similar to Marginal Deformations and Non-Integrability in String Theory (20)

More from Rene Kotze

More from Rene Kotze (20)

Recently uploaded

Recently uploaded (20)

Marginal Deformations and Non-Integrability in String Theory