LLM geometries in M-theory and probe branes inside them
description
Transcript of LLM geometries in M-theory and probe branes inside them
LLM geometries in M-theory and probe branes inside them
Jun-Bao WuIHEP, CAS
Nov. 24, 2010, KITPC
Based on B. Chen, E. O Colgain, JW, H. Yavartanoo, JH
EP04(2010)078, 1001.0906.
E. O Colgain, JW, H. Yavartanoo, JHEP08(2010)114, 1005.4527.
E. O Colgain, JW, H. Yavartanoo, 1010.5982.
Outline
Vanishing of a particular flux in 11d LLM geometries
Probe branes in Maldacena-Nunez background
Conclusions and discussions
11d LLM geometry
Lin, Lunin and Maldacena (2004) found a large class of half-BPS solutions with isometry SO(6)*SO(3)*R of 11d SUGRA.
The geometry is warped product of S5, S2 and M4.
This geometry plays an important role in AdS/CFT correspondence.
Holographic dual of N=2 theories
Gaiotto (2009) constructed a huge class of 4d N=2 gauge theories by wrapping N M5 branes on a (punctured)(punctured) Riemann surface.
Gaiotto and Maldacena (2009) suggested the dual geometries fall into double-Wick-rotated LLM solutions (S5 becomes AdS5, and M4 becomes Euclidean).
Dual geometries
For cases without punctures, the dual geometries are solutions obtained by Maldacena and Nunez (2000), which are special cases of double-Wick-rotated LLM solutions.
For case with punctures, the full dual geometries haven’t been obtained.
Fluxes
From [Gaiotto, Maldacena]
No such a flux We show that there are no solutions w
ith such a flux. Aside remark: LLM noticed that if there is such a flux,
the geometry is singularsingular. So in certain sense, this singularity is ruled out by the sixteen supercharges (and the isometry).
11d supergravity The bosonic sector of the 11d SUGRA i
ncludes the metric g and a 3-form potential C with field strength F(4)=dC.
The action for this sector is:
Killing spinor equation:
Ansatz LLM looked for half-BPS solutions wit
h isometry SO(6)*SO(3), so they began with the following ansatz
Decomposition
The decomposition of the gamma matrices:
We decompose the 11d Killing spinor using Killing spinors on S5 and S2:
Reduction of KSE
The 11d Killing spinor equations now reduce to:
The bispinors (scalars and vectors)
Algebraic relations among scalars
Algebraic relations among vectors
Vanishing of I
For general case, we have
If we assume I is nonzero,
By solving the above algebraic equations, we get
Gaiotto’s N=2 dualities Gaiotto studied a huge class of N=2 theory o
btained from wrapping M5 branes on (punctured) Riemann surface.
Only a small fraction of these theories have known descriptions in terms of UV Lagrangian.
Gaiotto found generalization of various known S-dualities.
Non-perturbative results can be obtained from M-theory.
Simplest example
SU(2) theory with 4 flavors is corresponding to a sphere with 4 punctures. (In the right figure, SO(4)*SO(4) subgroup of flavor group SO(8) is picked out.)
S-duality (I)
S-duality SL(2, Z) group acts on
SL(2, Z) acts through triality on SO(8) flavor group, and exchanges quarks, monopoles and dyons.
S-duality (II)
More complicated quiver
TN theory
The case without punctures
Maldacena-Nenuz background
A bit more on the geometry
S4 part of the six-dimetional internal space:
Non-local operators/probe branes There are non-local operators (object
s) with various dimensions in these N=2 field theories: Wilson-’t Hooft loops, surface operators, domain walls …
In certain conditions they should be dual to probe M2 or M5 branes.
The M2 branes dual to loop operators: [Drukker, Morrison, Okuda]
Killing spinors
M5 branes We focus on M5-brane in this MN back
ground. There are self-dual 3-form h field in th
e worldvolume of M5-brane. The equations of motion are quite co
mplicated, so we do not give the details.
BPS condition
The supersymmetries preserved by the M5 brane are determined by the following condition
Half-BPS AdS3 probe
The brane is along AdS3 (inside AdS5) Σ2 and directions with θ=π/2 :
Field theory dual
Half of the supersymmetries are broken by this brane, while SU(2)*U(1) R-symmetry is preserved.
The brane should be dual to some two-dimensional operators in the field theory side. Maybe it is dual to half-BPS surface operator.
Back reaction It is interesting to study the ¼-BPS sol
ution of 11d SUGRA describing the back reaction of this BPS M5 brane.
It should be warped product of AdS3, S2 and a six-dimensional internal space including Σ2.
We tried to search such solution following the ideas of LLM.
Two known solutions We began with the bispinors and using the t
ool of G-structures. We re-obtained two known solutions: 1. SU(3)-structure: AdS3*S2*CY3 [Maldacena,
Strominger, Witten] 2. SU(2)-structure: the one studied by [Gauntlett, etal][Kim3] The wanted solution is not in either class. We are still searching for it …
Summary
We showed that there are no certain flux in LLM geometries (closed the previous loophole).
We studied the probe branes in a special LLM background.
Future directions
Continue to study the gravity dual for the case with punctures. Related works:
[Donos, Simon] [Reid-Edwards et al]
Further studies on the correspondence between non-local operators and probe branes.
THE END
Thank you very much!