On Special Geometry of Generalized G Structures and Flux Compactifications. Hu Sen, USTC. Hangzhou-Zhengzhou, 2007
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1 On Special Geometry of Generalized G Structures and Flux Compactifications Hu Sen, USTC Hangzhou-Zhengzhou,
2 Dreams of A. Einstein: Unifications of interacting forces of nature 1920 s known forces: Gravity and Electro-Magnetic forces(matters) 2
3 General Relativity: Einstein-Hilbert action S(g) = R gd 4 x M 4 δs = 0 R µν 1 2 Rg µν = 0. 3
4 Electro-Magnetic forces obey Maxwell equations: S = 1 4 F µνf µν J µa µ F = da = ΣF µν dx µ dx ν, F µν = µ A ν ν A µ df = 0, d( F ) = J. 4
5 Unification of gravity and electro-magnetic fields: Kaluza-Klein compactifications M 5 = M 4 S 1 ds 2 = Σg mn dx m dx n = e 2Φ/3 Σg µν dx µ dx ν + e 4Φ/3 (dθ + A µ dx µ ) 2 g µν (x, θ) = Σg µν;n e 2πnθ A µ (x, θ) = ΣA µ;n e 2πnθ 5
6 Only keeping the lightest modes: g µν;0, A µ;0 The Einstein-Hilbert action S(g) = R gd 5 x M 5 reduces to the Einstein-Hilbert-Yang-Mills action S(g, A, Φ) = gd 4 x(r + dφ 2 1 M 4 2 F µνf µν ) Conclusion: We have unified gravity-electro-magnetic forces by using a five dimensional gravity! 6
7 String/M Theory is to realize A. Einstein s dream in broadest generality We have four fundamental forces: gravity and matters: electro-magnetic, weak and strong Matters obey laws in gauge theories with gauge groups: U(1), SU(2) U(1), SU(3) SU(2) U(1) Standard models were constructed in 1970 s and it fits with experiments very well 7
8 Gravity is generalized to super-gravity to incorporate super-symmetry SUGRA is a local gauge theory with gauge symmetry the SUSY algebra 8
9 M Theory: 11 dimensional Super-gravity Fields: a metric G MN, a gravitino ψ M, and a three form A MNP The bosonic action of the 11D Supergravity: 2kS = d 11 x G(R 1 2 F 4 2 ) 1 6 A 3 F 4 F 4. 9
10 Supersymmetric solutions: δψ M = M ɛ (Γ MF 4 3F 4 M)ɛ = 0, ɛ are Killing spinors. 10
11 Type IIA String theory from M theory by dimensional reduction M 11 = M 10 S 1 ds 2 = Σg mn dx m dx n = e 2Φ/3 Σg µν dx µ dx ν + e 4Φ/3 (dθ + A µ dx µ ) 2 A 11 µνρ = A µνρ, A 11 µν11 = B µν 11
12 The bosonic action of Type IIA is: S NS = 1 2k 2 S R = 1 4k 2 S = S NS + S R + S CS d 10 x g(r + 4 µ Φ µ Φ 1 2 H 3 2 ), S CS = 1 k 2 d 10 x g( F F 4 2 ), B 2 A 4 A 4. 12
13 Super-symmetric solutions δψ µ = ( µ 1 4 H3 µγ eφ F νρ Γ νρ µ Γ eφ F 4 Γ µ )ɛ = 0, δλ = ( 1 3 Γµ µ ΦΓ H3 1 4 eφ F eφ F 4 Γ 11 )ɛ = 0, dh = 0. 13
14 Compactifications of 10D theory to a 4D theory M 1,9 = R 1,3 M 6 ɛ 1,2 = Σξ 1,2 η 1,2 No fluxes: Covariant constant spinor and Calabi-Yau manifold η = 0 Yau s theorem: For a Kahler manifold M with c 1 (T M) = 0, there exists a Ricci flat metric. 14
15 Moduli space of Calabi-Yau manifolds Symplectic structures ω and complex structures Ω M = M K M C H 1,1 (M) H 2,1 (M) 15
16 Special geometry over M M is a Kahler manifold with the Kahler metric: ds 2 = 1 g a bg c d(δg ac δg b d + (δg V a dδg c b δb a dδb c b)d 6 x. M 6 It is a Kahler metric with Kahler potential: e K2,1 = i Ω Ω, e K1,1 = i ω ω ω. Much of developments in string theory depend on this special geometry! 16
17 Mirror symmetry: one Calabi-Yau M 1 is mirror to another Calabi-Yau M 2 M K (M 1 ) = M C (M 2 ). Web of dualities of string theories 17
18 Turning on fluxes: Nervu-Schwarz fluxes and Ramond-Ramond fluxes Super-symmetric solutions δψ µ = ( µ 1 4 H3 µγ eφ F νρ Γ νρ µ Γ eφ F 4 Γ µ )ɛ = 0, δλ = ( 1 3 Γµ µ ΦΓ H3 1 4 eφ F eφ F 4 Γ 11 )ɛ = 0, dh = 0. 18
19 Existence of two non-vanishing spinors: an almost generalized SU(3) SU(3) structure Structure group reduction from SO(6, 6) to SU(3, 3) We have two SU(3) invariant spinors ɛ 1,2 ρ = Σ ɛ 2 Γ µ 1...µ p ɛ 1 dx µ1... dx µp ɛ 1 = ɛ 2, ρ = 1 + ω 1,1 + Ω 3,0 + Hodge dual 19
20 Supersymmetric solutions are integrable generalized SU(3) SU(3) structures d H (ρ) = 0, d H ˆρ = F, d H = d + H. Those are generalized Maxwell-Hodge equations. 20
21 The moduli space of almost generalized SU(3) SU(3) structures over a vector space: M = SO(6, 6)/SU(3, 3) = U ρ /C Over a manifold we have a bundle: U ρ /C E M 6 The space of generalized SU(3) SU(3) structures is: M = {Φ E(M 6 ) dφ = 0} 21
22 Turning on all fluxes: the space of N = 1 string vacua is: M = {Φ E(M 6 ) d H Φ = 0, d H ˆρ = F } Finally, the moduli space of N=1 string vacua is: M = M/ Diff 0 (M 6 ) 22
23 The Period map: Taking d H cohomology classes Gualtieri: the H H lemma is true for a generalized Kahler manifold Goto: If the H H lemma is true, then the period map is injective. M = {Φ E(M 6 ) d H Φ = 0, d H ˆρ = 0} is included in the space of d H cohomologies 23
24 Special geometries over M Constant symplectic structure over M ω(φ 1, Φ 2 ) = < Φ 1, Φ 2 >, M 6 Mukai Pairing :< Φ 1, Φ 2 >= Σ p Φ 1,p Φ 2,n p. We have: dω = 0, ω = Σdx K dy K. 24
25 Complex structure over M Stable spinor decomposed into pure spinors:φ = φ + ˆφ X : ρ = φ + ˆφ ˆρ = iφ + i φ, DX.DX = Id. I = DXdefines an intregrable complex structure overm ω(φ, Φ) = ( Z K F K Z K FK ), Z K, F K are two independent complex coordinates. 25
26 Hitchin functional and the Kahler metric over M H(Φ) = i < φ, φ >. M 6 The Kahler metric over M is: ds 2 = Σ αβ Hdχ α dχ β. The Kahler potential is:k = log H. We finally have: e K(Φ) = H(Φ) = iω(φ, Φ) = i( Z K F K Z K FK ). 26
27 Topological strings The moduli space is acted by mapping class groups, Diff + (M)/Diff 0 + (M) H 2 (M, Z) The mapping class group acts on the space of cohomologies which is a vector space This gives a flat connection on the moduli space of generalized Calabi-Yau manifold (Gauss-Manin connection) We can construct topological strings over a generalized Calabi-Yau manifold. Q: Can we generalize Ooguri-Strominger-Vafa s conjecture to generalized Calabi-Yau manifolds? 27
28 Flux compactifications and Supersymmetry breaking By introducing RR fluxes, we break half of supersymmetries d H ρ = 0, d H ˆρ = F. RR fluxes are coupled with D-branes, generalized D-branes are generalized sub-manifolds Q: How about the moduli space and what are the BCFT? Q: Can we build more realistic standard model with all fluxes turning on? 28
29 Mirror symmetry for generalized Calabi-Yau manifolds It is just exchanging two generalized complex structures In the case of Calabi-Yau, it is exchanging complex and symplectic structures 29
30 Q: How about compactifications of M theory to a seven dimensional manifolds? The answer would be generalized G 2 manifolds. Special geometries for generalized G 2 structures Still have stable spinors and constant symplectic forms and Hitchin functional Q: Are they giving the same set of 4D N=1 string vacua? A: They should be the same and this is duality! 30
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