Abstract
We find new BPS solutions in N = 2 D = 4 Fayet-Iliopoulos gauged super- gravity with STU prepotential. These are stationary solutions carrying a Kerr-Newman throat spacetime geometry and are everywhere regular. One of the three scalar vector fields is non constant. Moreover, they carry non vanishing magnetic fluxes and dipolar electric fields.
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S.A. Hartnoll, Lectures on holographic methods for condensed matter physics, Class. Quant. Grav. 26 (2009) 224002 [arXiv:0903.3246] [INSPIRE].
N. Iizuka, N. Kundu, P. Narayan and S.P. Trivedi, Holographic Fermi and Non-Fermi Liquids with Transitions in Dilaton Gravity, JHEP 01 (2012) 094 [arXiv:1105.1162] [INSPIRE].
S.A. Hartnoll, C.P. Herzog and G.T. Horowitz, Building a Holographic Superconductor, Phys. Rev. Lett. 101 (2008) 031601 [arXiv:0803.3295] [INSPIRE].
M. Guica, T. Hartman, W. Song and A. Strominger, The Kerr/CFT Correspondence, Phys. Rev. D 80 (2009) 124008 [arXiv:0809.4266] [INSPIRE].
F. Benini, K. Hristov and A. Zaffaroni, Black hole microstates in AdS4 from supersymmetric localization, JHEP 05 (2016) 054 [arXiv:1511.04085] [INSPIRE].
S. Bellucci, S. Ferrara, A. Marrani and A. Yeranyan, d = 4 Black Hole Attractors in N = 2 Supergravity with Fayet-Iliopoulos Terms, Phys. Rev. D 77 (2008) 085027 [arXiv:0802.0141] [INSPIRE].
S.L. Cacciatori and D. Klemm, Supersymmetric AdS4 black holes and attractors, JHEP 01 (2010) 085 [arXiv:0911.4926] [INSPIRE].
S. Kachru, R. Kallosh and M. Shmakova, Generalized Attractor Points in Gauged Supergravity, Phys. Rev. D 84 (2011) 046003 [arXiv:1104.2884] [INSPIRE].
K. Hristov, S. Katmadas and C. Toldo, Matter-coupled supersymmetric Kerr-Newman-AdS4 black holes, Phys. Rev. D 100 (2019) 066016 [arXiv:1907.05192] [INSPIRE].
A. Gnecchi, K. Hristov, D. Klemm, C. Toldo and O. Vaughan, Rotating black holes in 4d gauged supergravity, JHEP 01 (2014) 127 [arXiv:1311.1795] [INSPIRE].
S.L. Cacciatori, D. Klemm, D.S. Mansi and E. Zorzan, All timelike supersymmetric solutions of N = 2, D = 4 gauged supergravity coupled to abelian vector multiplets, JHEP 05 (2008) 097 [arXiv:0804.0009] [INSPIRE].
N. Daniele, F. Faedo, D. Klemm and P.F. Ramírez, Rotating black holes in the FI-gauged N = 2, D = 4 \( {\overline{\mathrm{\mathbb{C}}P}}^n \) model, JHEP 03 (2019) 151 [arXiv:1902.03113] [INSPIRE].
D. Klemm, Rotating BPS black holes in matter-coupled AdS4 supergravity, JHEP 07 (2011) 019 [arXiv:1103.4699] [INSPIRE].
D.D.K. Chow and G. Compère, Dyonic AdS black holes in maximal gauged supergravity, Phys. Rev. D 89 (2014) 065003 [arXiv:1311.1204] [INSPIRE].
D.D.K. Chow, Single-charge rotating black holes in four-dimensional gauged supergravity, Class. Quant. Grav. 28 (2011) 032001 [arXiv:1011.2202] [INSPIRE].
D.D.K. Chow, Two-charge rotating black holes in four-dimensional gauged supergravity, Class. Quant. Grav. 28 (2011) 175004 [arXiv:1012.1851] [INSPIRE].
Z.-W. Chong, M. Cvetič, H. Lü and C.N. Pope, Charged rotating black holes in four-dimensional gauged and ungauged supergravities, Nucl. Phys. B 717 (2005) 246 [hep-th/0411045] [INSPIRE].
K. Hristov, S. Katmadas and C. Toldo, Rotating attractors and BPS black holes in AdS4 , JHEP 01 (2019) 199 [arXiv:1811.00292] [INSPIRE].
S. Ferrara, Bertotti-Robinson geometry and supersymmetry, in 12th Italian Conference on General Relativity and Gravitational Physics, Rome Italy (1997), pg. 135 [hep-th/9701163] [INSPIRE].
J.M. Bardeen and G.T. Horowitz, The Extreme Kerr throat geometry: A Vacuum analog of AdS2 × S2 , Phys. Rev. D 60 (1999) 104030 [hep-th/9905099] [INSPIRE].
D.D.K. Chow, M. Cvetič, H. Lü and C.N. Pope, Extremal Black Hole/CFT Correspondence in (Gauged) Supergravities, Phys. Rev. D 79 (2009) 084018 [arXiv:0812.2918] [INSPIRE].
G. Clement and D. Gal’tsov, Bertotti-Robinson type solutions to dilaton-axion gravity, Phys. Rev. D 63 (2001) 124011 [gr-qc/0102025] [INSPIRE].
A. Bouchareb, C.-M. Chen, G. Clément and D. Gal’tsov, Bertotti-Robinson and soliton string solutions of D = 5 minimal supergravity, Phys. Rev. D 90 (2014) 024047 [arXiv:1405.0269] [INSPIRE].
G. Clement and D. Gal’tsov, Conformal mechanics on rotating Bertotti-Robinson space-time, Nucl. Phys. B 619 (2001) 741 [hep-th/0105237] [INSPIRE].
H.K. Kunduri, J. Lucietti and H.S. Reall, Near-horizon symmetries of extremal black holes, Class. Quant. Grav. 24 (2007) 4169 [arXiv:0705.4214] [INSPIRE].
G. Dall’Agata and A. Gnecchi, Flow equations and attractors for black holes in N = 2 U(1) gauged supergravity, JHEP 03 (2011) 037 [arXiv:1012.3756] [INSPIRE].
D. Klemm and O. Vaughan, Nonextremal black holes in gauged supergravity and the real formulation of special geometry, JHEP 01 (2013) 053 [arXiv:1207.2679] [INSPIRE].
D. Klemm and O. Vaughan, Nonextremal black holes in gauged supergravity and the real formulation of special geometry II, Class. Quant. Grav. 30 (2013) 065003 [arXiv:1211.1618] [INSPIRE].
D. Klemm, N. Petri and M. Rabbiosi, Symplectically invariant flow equations for N = 2, D = 4 gauged supergravity with hypermultiplets, JHEP 04 (2016) 008 [arXiv:1602.01334] [INSPIRE].
D. Grumiller, W. Kummer and D.V. Vassilevich, Dilaton gravity in two-dimensions, Phys. Rept. 369 (2002) 327 [hep-th/0204253] [INSPIRE].
D. Klemm and E. Zorzan, The timelike half-supersymmetric backgrounds of N = 2, D = 4 supergravity with Fayet-Iliopoulos gauging, Phys. Rev. D 82 (2010) 045012 [arXiv:1003.2974] [INSPIRE].
L.J. Romans, Supersymmetric, cold and lukewarm black holes in cosmological Einstein-Maxwell theory, Nucl. Phys. B 383 (1992) 395 [hep-th/9203018] [INSPIRE].
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Astesiano, D., Cacciatori, S. Super throats with non trivial scalars. J. High Energ. Phys. 2020, 17 (2020). https://doi.org/10.1007/JHEP07(2020)017
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DOI: https://doi.org/10.1007/JHEP07(2020)017