Abstract
Multi-parametric families of AdS4 vacua with various amounts of supersymmetry and residual gauge symmetry are found in the [SO (1, 1) × SO(6)] ⋉ ℝ12 maximal supergravity that arises from the reduction of type IIB supergravity on ℝ × S5. These provide natural candidates to holographically describe new strongly coupled three-dimensional CFT’s which are localised on interfaces of \( \mathcal{N} \) = 4 super-Yang-Mills theory. One such AdS4 vacua features a symmetry enhancement to SU(2) × U(1) while preserving \( \mathcal{N} \) = 2 super- symmetry. Fetching techniques from the E7(7) exceptional field theory, its uplift to a class of \( \mathcal{N} \) = 2 S-folds of type IIB supergravity of the form AdS4× S1× S5 involving S-duality twists of hyperbolic type along S1 is presented.
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References
G. Dall’Agata, G. Inverso and M. Trigiante, Evidence for a family of SO(8) gauged supergravity theories, Phys. Rev. Lett.109 (2012) 201301 [arXiv:1209.0760] [INSPIRE].
B. de Wit and H. Nicolai, N = 8 Supergravity, Nucl. Phys.B 208 (1982) 323 [INSPIRE].
N.P. Warner, Some New Extrema of the Scalar Potential of Gauged N = 8 Supergravity, Phys. Lett.128B (1983) 169 [INSPIRE].
I.M. Comsa, M. Firsching and T. Fischbacher, SO(8) Supergravity and the Magic of Machine Learning, JHEP08 (2019) 057 [arXiv:1906.00207] [INSPIRE].
A. Borghese, A. Guarino and D. Roest, All G2invariant critical points of maximal supergravity, JHEP12 (2012) 108 [arXiv:1209.3003] [INSPIRE].
A. Borghese, G. Dibitetto, A. Guarino, D. Roest and O. Varela, The SU(3)-invariant sector of new maximal supergravity, JHEP03 (2013) 082 [arXiv:1211.5335] [INSPIRE].
A. Borghese, A. Guarino and D. Roest, Triality, Periodicity and Stability of SO(8) Gauged Supergravity, JHEP05 (2013) 107 [arXiv:1302.6057] [INSPIRE].
A. Guarino, On new maximal supergravity and its BPS domain-walls, JHEP02 (2014) 026 [arXiv:1311.0785] [INSPIRE].
J. Tarrío and O. Varela, Electric/magnetic duality and RG flows in AdS4/CFT3 , JHEP01 (2014) 071 [arXiv:1311.2933] [INSPIRE].
A. Anabalon and D. Astefanesei, Black holes in ω-defomed gauged N = 8 supergravity, Phys. Lett.B 732 (2014) 137 [arXiv:1311.7459] [INSPIRE].
H. Lü, Y. Pang and C.N. Pope, An ω deformation of gauged STU supergravity, JHEP04 (2014) 175 [arXiv:1402.1994] [INSPIRE].
S.-Q. Wu and S. Li, Thermodynamics of Static Dyonic AdS Black Holes in the ω-Deformed Kaluza-Klein Gauged Supergravity Theory, Phys. Lett.B 746 (2015) 276 [arXiv:1505.00117] [INSPIRE].
B. de Wit and H. Nicolai, Deformations of gauged SO(8) supergravity and supergravity in eleven dimensions, JHEP05 (2013) 077 [arXiv:1302.6219] [INSPIRE].
K. Lee, C. Strickland-Constable and D. Waldram, New Gaugings and Non-Geometry, Fortsch. Phys.65 (2017) 1700049 [arXiv:1506.03457] [INSPIRE].
A. Guarino and O. Varela, Consistent \( \mathcal{N} \) = 8 truncation of massive IIA on S6 , JHEP12 (2015) 020 [arXiv:1509.02526] [INSPIRE].
G. Dall’Agata, G. Inverso and A. Marrani, Symplectic Deformations of Gauged Maximal Supergravity, JHEP07 (2014) 133 [arXiv:1405.2437] [INSPIRE].
A. Guarino and O. Varela, Dyonic mathrmI SO(7) supergravity and the duality hierarchy, JHEP02 (2016) 079 [arXiv:1508.04432] [INSPIRE].
A. Guarino, J. Tarrío and O. Varela, Halving mathrmI SO(7) supergravity, JHEP11 (2019) 143 [arXiv:1907.11681] [INSPIRE].
A. Guarino, J. Tarrío and O. Varela, Flowing to \( \mathcal{N} \) = 3 Chern-Simons-matter theory, JHEP03 (2020) 100 [arXiv:1910.06866] [INSPIRE].
A. Guarino, J. Tarrío and O. Varela, Romans-mass-driven flows on the D2-brane, JHEP08 (2016) 168 [arXiv:1605.09254] [INSPIRE].
A. Guarino and J. Tarrío, BPS black holes from massive IIA on S6 , JHEP09 (2017) 141 [arXiv:1703.10833] [INSPIRE].
A. Guarino, BPS black hole horizons from massive IIA, JHEP08 (2017) 100 [arXiv:1706.01823] [INSPIRE].
S.M. Hosseini, K. Hristov and A. Passias, Holographic microstate counting for AdS4black holes in massive IIA supergravity, JHEP10 (2017) 190 [arXiv:1707.06884] [INSPIRE].
F. Benini, H. Khachatryan and P. Milan, Black hole entropy in massive Type IIA, Class. Quant. Grav.35 (2018) 035004 [arXiv:1707.06886] [INSPIRE].
L.J. Romans, Massive N=2a Supergravity in Ten-Dimensions, Phys. Lett.169B (1986) 374 [INSPIRE].
A. Guarino, D.L. Jafferis and O. Varela, String Theory Origin of Dyonic N = 8 Supergravity and Its Chern-Simons Duals, Phys. Rev. Lett.115 (2015) 091601 [arXiv:1504.08009] [INSPIRE].
G. Inverso, H. Samtleben and M. Trigiante, Type II supergravity origin of dyonic gaugings, Phys. Rev.D 95 (2017) 066020 [arXiv:1612.05123] [INSPIRE].
A. Gallerati, H. Samtleben and M. Trigiante, The \( \mathcal{N} \)> 2 supersymmetric AdS vacua in maximal supergravity, JHEP12 (2014) 174 [arXiv:1410.0711] [INSPIRE].
D. Bak, M. Gutperle and S. Hirano, A dilatonic deformation of AdS5and its field theory dual, JHEP05 (2003) 072 [hep-th/0304129] [INSPIRE].
E. D’Hoker, J. Estes and M. Gutperle, Ten-dimensional supersymmetric Janus solutions, Nucl. Phys.B 757 (2006) 79 [hep-th/0603012] [INSPIRE].
G. Dall’Agata and G. Inverso, On the Vacua of N = 8 Gauged Supergravity in 4 Dimensions, Nucl. Phys.B 859 (2012) 70 [arXiv:1112.3345] [INSPIRE].
A. Guarino and C. Sterckx, S-folds and (non-)supersymmetric Janus solutions, JHEP12 (2019) 113 [arXiv:1907.04177] [INSPIRE].
B. Assel and A. Tomasiello, Holographic duals of 3d S-fold CFTs, JHEP06 (2018) 019 [arXiv:1804.06419] [INSPIRE].
I. Garozzo, G. Lo Monaco and N. Mekareeya, The moduli spaces of S-fold CFTs, JHEP01 (2019) 046 [arXiv:1810.12323] [INSPIRE].
I. Garozzo, G. Lo Monaco, N. Mekareeya and M. Sacchi, Supersymmetric Indices of 3d S-fold SCFTs, JHEP08 (2019) 008 [arXiv:1905.07183] [INSPIRE].
N. Bobev, F.F. Gautason, K. Pilch, M. Suh and J. Van Muiden, Janus and J-fold Solutions from Sasaki-Einstein Manifolds, Phys. Rev.D 100 (2019) 081901 [arXiv:1907.11132] [INSPIRE].
A.B. Clark, D.Z. Freedman, A. Karch and M. Schnabl, Dual of the Janus solution: An interface conformal field theory, Phys. Rev.D 71 (2005) 066003 [hep-th/0407073] [INSPIRE].
D. Gaiotto and E. Witten, S-duality of Boundary Conditions In N = 4 Super Yang-Mills Theory, Adv. Theor. Math. Phys.13 (2009) 721 [arXiv:0807.3720] [INSPIRE].
E. D’Hoker, J. Estes and M. Gutperle, Interface Yang-Mills, supersymmetry and Janus, Nucl. Phys.B 753 (2006) 16 [hep-th/0603013] [INSPIRE].
D. Gaiotto and E. Witten, Janus Configurations, Chern-Simons Couplings, And The theta-Angle in N = 4 Super Yang-Mills Theory, JHEP06 (2010) 097 [arXiv:0804.2907] [INSPIRE].
B. de Wit, H. Samtleben and M. Trigiante, Magnetic charges in local field theory, JHEP09 (2005) 016 [hep-th/0507289] [INSPIRE].
A. Guarino, CSOc superpotentials, Nucl. Phys.B 900 (2015) 501 [arXiv:1508.05055] [INSPIRE].
B. de Wit, H. Samtleben and M. Trigiante, The maximal D = 4 supergravities, JHEP06 (2007) 049 [arXiv:0705.2101] [INSPIRE].
H. Samtleben, Lectures on Gauged Supergravity and Flux Compactifications, Class. Quant. Grav.25 (2008) 214002 [arXiv:0808.4076] [INSPIRE].
M. Trigiante, Gauged Supergravities, Phys. Rept.680 (2017) 1 [arXiv:1609.09745] [INSPIRE].
N. Bobev, T. Fischbacher and K. Pilch, Properties of the new \( \mathcal{N} \)= 1 AdS4vacuum of maximal supergravity, JHEP01 (2020) 099 [arXiv:1909.10969] [INSPIRE].
G. Aldazabal, P.G. Camara, A. Font and L.E. Ibáñez, More dual fluxes and moduli fixing, JHEP05 (2006) 070 [hep-th/0602089] [INSPIRE].
G. Aldazabal, P.G. Camara and J.A. Rosabal, Flux algebra, Bianchi identities and Freed-Witten anomalies in F-theory compactifications, Nucl. Phys.B 814 (2009) 21 [arXiv:0811.2900] [INSPIRE].
P. Breitenlohner and D.Z. Freedman, Positive Energy in anti-de Sitter Backgrounds and Gauged Extended Supergravity, Phys. Lett.115B (1982) 197 [INSPIRE].
O. Hohm and H. Samtleben, Exceptional field theory. II. E7(7) , Phys. Rev.D 89 (2014) 066017 [arXiv:1312.4542] [INSPIRE].
O. Hohm and H. Samtleben, Consistent Kaluza-Klein Truncations via Exceptional Field Theory, JHEP01 (2015) 131 [arXiv:1410.8145] [INSPIRE].
A. Baguet, O. Hohm and H. Samtleben, E6(6)Exceptional Field Theory: Review and Embedding of Type IIB, PoS(CORFU2014)133 (2015) [arXiv:1506.01065] [INSPIRE].
A. Baguet, O. Hohm and H. Samtleben, Consistent Type IIB Reductions to Maximal 5D Supergravity, Phys. Rev.D 92 (2015) 065004 [arXiv:1506.01385] [INSPIRE].
K. Pilch and N.P. Warner, A new supersymmetric compactification of chiral IIB supergravity, Phys. Lett.B 487 (2000) 22 [hep-th/0002192] [INSPIRE].
A. Khavaev, K. Pilch and N.P. Warner, New vacua of gauged N = 8 supergravity in five-dimensions, Phys. Lett.B 487 (2000) 14 [hep-th/9812035] [INSPIRE].
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Guarino, A., Sterckx, C. & Trigiante, M. \( \mathcal{N} \) = 2 supersymmetric S-folds. J. High Energ. Phys. 2020, 50 (2020). https://doi.org/10.1007/JHEP04(2020)050
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DOI: https://doi.org/10.1007/JHEP04(2020)050