References

1 Abbott, L.F. and Deser, S., “Stability of gravity with a cosmological constant”, Nucl. Phys. B, 195, 76–96, (1982). [External LinkDOI].
2 Adelberger, E.G., Heckel, B.R. and Nelson, A.E., “Tests of the Gravitational Inverse-Square Law”, Annu. Rev. Nucl. Part. Sci., 53, 77–121, (2003). [External LinkDOI], [External LinkarXiv:hep-ph/0307284 [hep-ph]].
3 Agullo, I., Navarro-Salas, J., Olmo, G.J. and Parker, L., “Hawking radiation by Kerr black holes and conformal symmetry”, Phys. Rev. Lett., 105, 211305, (2010). [External LinkDOI], [External LinkarXiv:1006.4404 [hep-th]].
4 Amsel, A.J., Horowitz, G.T., Marolf, D. and Roberts, M.M., “No dynamics in the extremal Kerr throat”, J. High Energy Phys., 2009(09), 044, (2009). [External LinkDOI], [External LinkarXiv:0906.2376 [hep-th]].
5 Amsel, A.J., Marolf, D. and Roberts, M.M., “On the Stress Tensor of Kerr/CFT”, J. High Energy Phys., 2009(10), 021, (2009). [External LinkDOI], [External LinkarXiv:0907.5023 [hep-th]].
6 Andrade, T., Bañados, M., Benguria, R. and Gomberoff, A., “(2+1)-dimensional charged black hole in topologically massive electrodynamics”, Phys. Rev. Lett., 95, 021102, (2005). [External LinkDOI], [External Linkhep-th/0503095].
7 Anninos, D. and Hartman, T., “Holography at an extremal de Sitter horizon”, J. High Energy Phys., 2010(03), 096, (2010). [External LinkDOI], [External LinkarXiv:0910.4587 [hep-th]].
8 Anninos, D., Li, W., Padi, M., Song, W. and Strominger, A., “Warped AdS3 Black Holes”, J. High Energy Phys., 2009(03), 130, (2009). [External LinkDOI], [External LinkarXiv:0807.3040 [hep-th]].
9 Arnowitt, R., Deser, S. and Misner, C.W., “Coordinate Invariance and Energy Expressions in General Relativity”, Phys. Rev., 122, 997–1006, (1961). [External LinkDOI].
10 Ashtekar, A., Beetle, C., Dreyer, O., Fairhurst, S., Krishnan, B., Lewandowski, J. and Wisniewski, J., “Generic Isolated Horizons and Their Applications”, Phys. Rev. Lett., 85, 3564–3567, (2000). [External LinkDOI], [External Linkgr-qc/0006006].
11 Ashtekar, A., Beetle, C. and Fairhurst, S., “Isolated horizons: a generalization of black hole mechanics”, Class. Quantum Grav., 16, L1–L7, (1999). [External LinkDOI], [External LinkarXiv:gr-qc/9812065 [gr-qc]].
12 Ashtekar, A., Bombelli, L. and Reula, O.A., “The covariant phase space of asymptotically flat gravitational fields”, in Francaviglia, M. and Holm, D., eds., Mechanics, Analysis and Geometry: 200 Years after Lagrange, pp. 417–450, (North-Holland, Amsterdam; New York, 1991).
13 Ashtekar, A and Hansen, R.O., “A unified treatment of null and spatial infinity in general relativity. I. Universal structure, asymptotic symmetries, and conserved quantities at spatial infinity”, J. Math. Phys., 19, 1542–1566, (1978). [External LinkDOI].
14 Ashtekar, A. and Krishnan, B., “Isolated and Dynamical Horizons and Their Applications”, Living Rev. Relativity, 7, lrr-2004-10, (2004). [External LinkarXiv:gr-qc/0407042]. URL (accessed 1 May 2012):
http://www.livingreviews.org/lrr-2004-10.
15 Ashtekar, A. and Magnon, A., “Asymptotically anti-de Sitter space-times”, Class. Quantum Grav., 1, L39–L44, (1984). [External LinkDOI].
16 Ashtekar, A. and Romano, J.D., “Spatial infinity as a boundary of spacetime”, Class. Quantum Grav., 9, 1069–1100, (1992). [External LinkDOI].
17 Astefanesei, D., Goldstein, K., Jena, R.P., Sen, A. and Trivedi, S.P., “Rotating attractors”, J. High Energy Phys., 2006(10), 058, (2006). [External LinkDOI], [External LinkarXiv:hep-th/0606244 [hep-th]].
18 Astefanesei, D., Goldstein, K. and Mahapatra, S., “Moduli and (un)attractor black hole thermodynamics”, Gen. Relativ. Gravit., 40, 2069–2105, (2008). [External LinkDOI], [External LinkarXiv:hep-th/0611140 [hep-th]].
19 Astefanesei, D. and Yavartanoo, H., “Stationary black holes and attractor mechanism”, Nucl. Phys. B, 794, 13–27, (2008). [External LinkDOI], [External LinkarXiv:0706.1847 [hep-th]].
20 Azeyanagi, T., Compère, G., Ogawa, N., Tachikawa, Y. and Terashima, S., “Higher-Derivative Corrections to the Asymptotic Virasoro Symmetry of 4d Extremal Black Holes”, Prog. Theor. Phys., 122, 355–384, (2009). [External LinkDOI], [External LinkarXiv:0903.4176 [hep-th]].
21 Azeyanagi, T., Ogawa, N. and Terashima, S., “Holographic Duals of Kaluza-Klein Black Holes”, J. High Energy Phys., 2009(04), 061, (2009). [External LinkDOI], [External LinkarXiv:0811.4177 [hep-th]].
22 Azeyanagi, T., Ogawa, N. and Terashima, S., “The Kerr/CFT Correspondence and String Theory”, Phys. Rev. D, 79, 106009, (2009). [External LinkDOI], [External LinkarXiv:0812.4883 [hep-th]].
23 Azeyanagi, T., Ogawa, N. and Terashima, S., “Emergent AdS3 in the Zero Entropy Extremal Black Holes”, J. High Energy Phys., 2011(03), 004, (2011). [External LinkDOI], [External LinkarXiv:1010.4291 [hep-th]].
24 Azeyanagi, T., Ogawa, N. and Terashima, S., “On Non-Chiral Extension of Kerr/CFT”, J. High Energy Phys., 2011(06), 081, (2011). [External LinkDOI], [External LinkarXiv:1102.3423 [hep-th]].
25 Bañados, M., “Embeddings of the Virasoro algebra and black hole entropy”, Phys. Rev. Lett., 82, 2030–2033, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9811162 [hep-th]].
26 Bañados, M., Barnich, G., Compère, G. and Gomberoff, A., “Three-dimensional origin of Gödel spacetimes and black holes”, Phys. Rev. D, 73, 044006, (2006). [External LinkDOI], [External Linkhep-th/0512105].
27 Bañados, M., Henneaux, M., Teitelboim, C. and Zanelli, J., “Geometry of the (2+1) black hole”, Phys. Rev., 48, 1506–1525, (1993). [External LinkDOI], [External LinkarXiv:gr-qc/9302012 [gr-qc]].
28 Bañados, M., Teitelboim, C. and Zanelli, J., “The black hole in three-dimensional spacetime”, Phys. Rev. Lett., 69, 1849–1851, (1992). [External LinkDOI], [External LinkarXiv:hep-th/9204099 [hep-th]].
29 Balasubramanian, V., de Boer, J., Jejjala, V. and Simón, J., “Entropy of near-extremal black holes in AdS5”, J. High Energy Phys., 2008(05), 067, (2008). [External LinkDOI], [External LinkarXiv:0707.3601 [hep-th]].
30 Balasubramanian, V., de Boer, J., Sheikh-Jabbari, M.M. and Simón, J., “What is a chiral 2d CFT? And what does it have to do with extremal black holes?”, J. High Energy Phys., 2010(02), 017, (2010). [External LinkDOI], [External LinkarXiv:0906.3272 [hep-th]].
31 Balasubramanian, V., Parsons, J. and Ross, S.F., “States of a chiral 2d CFT”, Class. Quantum Grav., 28, 045004, (2011). [External LinkDOI], [External LinkarXiv:1011.1803 [hep-th]].
32 Bardeen, J.M., Carter, B. and Hawking, S.W., “The Four Laws of Black Hole Mechanics”, Commun. Math. Phys., 31, 161–170, (1973). [External LinkDOI]. Online version (accessed 13 June 2012):
External Linkhttp://projecteuclid.org/euclid.cmp/1103858973.
33 Bardeen, J.M. and Horowitz, G.T., “Extreme Kerr throat geometry: A vacuum analog of AdS2 × S2”, Phys. Rev. D, 60, 104030, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9905099 [hep-th]].
34 Bardeen, J.M., Press, W.H. and Teukolsky, S.A., “Rotating black holes: Locally nonrotating frames, energy extraction, and scalar syncrotron radiation”, Astrophys. J., 178, 347–369, (1972). [External LinkDOI], [External LinkADS].
35 Barnich, G. and Brandt, F., “Covariant theory of asymptotic symmetries, conservation laws and central charges”, Nucl. Phys. B, 633, 3–82, (2002). [External LinkDOI], [External LinkarXiv:hep-th/0111246].
36 Barnich, G. and Compère, G., “Surface charge algebra in gauge theories and thermodynamic integrability”, J. Math. Phys., 49, 042901, (2008). [External LinkDOI], [External LinkarXiv:0708.2378 [gr-qc]].
37 Barnich, G. and Troessaert, C., “Symmetries of asymptotically flat 4 dimensional spacetimes at null infinity revisited”, Phys. Rev. Lett., 105, 111103, (2010). [External LinkDOI], [External LinkarXiv:0909.2617 [gr-qc]].
38 Barnich, G. and Troessaert, C., “BMS charge algebra”, J. High Energy Phys., 2011(12), 105, (2011). [External LinkDOI], [External LinkarXiv:1106.0213 [hep-th]].
39 Becker, M., Cremonini, S. and Schulgin, W., “Correlation Functions and Hidden Conformal Symmetry of Kerr Black Holes”, J. High Energy Phys., 2010(09), 022, (2010). [External LinkDOI], [External LinkarXiv:1005.3571 [hep-th]].
40 Becker, M., Cremonini, S. and Schulgin, W., “Extremal Three-point Correlators in Kerr/CFT”, J. High Energy Phys., 2011(02), 007, (2011). [External LinkDOI], [External LinkarXiv:1004.1174 [hep-th]].
41 Becker, M. and Schulgin, W., “Boundary Terms, Spinors and Kerr/CFT”, J. High Energy Phys., 2012(04), 063, (2012). [External LinkDOI], [External LinkarXiv:1202.1528 [hep-th]].
42 Bekenstein, J.D., “Black holes and the second law”, Lett. Nuovo Cimento, 4, 737–740, (1972). [External LinkDOI].
43 Bengtsson, I. and Sandin, P., “Anti de Sitter space, squashed and stretched”, Class. Quantum Grav., 23, 971–986, (2006). [External LinkDOI], [External LinkarXiv:gr-qc/0509076 [gr-qc]].
44 Berti, E., Cardoso, V. and Casals, M., “Eigenvalues and eigenfunctions of spin-weighted spheroidal harmonics in four and higher dimensions”, Phys. Rev. D, 73, 024013, (2006). [External LinkDOI], [External LinkarXiv:gr-qc/0511111 [gr-qc]].
45 Bertini, S., Cacciatori, S.L. and Klemm, D., “Conformal structure of the Schwarzschild black hole”, Phys. Rev. D, 85, 064018, (2012). [External LinkDOI], [External LinkarXiv:1106.0999 [hep-th]].
46 Birkandan, T. and Cvetič, M., “Conformal Invariance and Near-extreme Rotating AdS Black Holes”, Phys. Rev. D, 84, 044018, (2011). [External LinkDOI], [External LinkarXiv:1106.4329 [hep-th]].
47 Birrell, N.D. and Davies, P.C.W., Quantum fields in curved space, Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge; New York, 1982). [External LinkGoogle Books].
48 Blöte, H.W.J., Cardy, J.L. and Nightingale, M.P., “Conformal Invariance, the Central Charge, and Universal Finite-Size Amplitudes at Criticality”, Phys. Rev. Lett., 56, 742–745, (1986). [External LinkDOI].
49 Bossard, G., “Octonionic black holes”, J. High Energy Phys., 2012(05), 113, (2012). [External LinkDOI], [External LinkarXiv:1203.0530 [hep-th]].
50 Brady, P.R. and Chambers, C.M., “Nonlinear instability of Kerr-type Cauchy horizons”, Phys. Rev., 51, 4177–4186, (1995). [External LinkDOI], [External LinkarXiv:gr-qc/9501025].
51 Brady, P.R., Droz, S. and Morsink, S.M., “Late-time singularity inside nonspherical black holes”, Phys. Rev. D, 58, 084034, (1998). [External LinkDOI], [External LinkarXiv:gr-qc/9805008 [gr-qc]].
52 Brady, P.R. and Smith, J.D., “Black Hole Singularities: A Numerical Approach”, Phys. Rev. Lett., 75, 1256–1259, (1995). [External LinkDOI], [External LinkADS], [External LinkarXiv:gr-qc/9506067 [gr-qc]].
53 Bredberg, I., Hartman, T., Song, W. and Strominger, A., “Black Hole Superradiance From Kerr/CFT”, J. High Energy Phys., 2010(04), 019, (2010). [External LinkDOI], [External LinkarXiv:0907.3477 [hep-th]].
54 Bredberg, I., Keeler, C., Lysov, V. and Strominger, A., “Lectures on the Kerr/CFT Correspondence”, Nucl. Phys. B (Proc. Suppl.), 216, 194–210, (2011). [External LinkDOI], [External LinkarXiv:1103.2355 [hep-th]].
55 Breitenlohner, P. and Freedman, D.Z., “Positive Energy in Anti-de Sitter Backgrounds and Gauged Extended Supergravity”, Phys. Lett. B, 115, 197–201, (1982). [External LinkDOI].
56 Breitenlohner, P. and Freedman, D.Z., “Stability in Gauged Extended Supergravity”, Ann. Phys. (N.Y.), 144, 249–281, (1982). [External LinkDOI].
57 Brenneman, L.W. and Reynolds, C.S., “Constraining Black Hole Spin Via X-ray Spectroscopy”, Astrophys. J., 652, 1028–1043, (2006). [External LinkDOI], [External LinkarXiv:astro-ph/0608502 [astro-ph]].
58 Brown, J.D. and Henneaux, M., “Central Charges in the Canonical Realization of Asymptotic Symmetries: An example from three-dimensional gravity”, Commun. Math. Phys., 104, 207–226, (1986). [External LinkDOI]. Online version (accessed 1 May 2012):
External Linkhttp://projecteuclid.org/euclid.cmp/1104114999.
59 Brown, J.D. and Henneaux, M., “On the Poisson brackets of differentiable generators in classical field theory”, J. Math. Phys., 27, 489–491, (1986). [External LinkDOI].
60 Callan, C.G. and Maldacena, J.M., “D-brane Approach to Black Hole Quantum Mechanics”, Nucl. Phys. B, 472, 591–610, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9602043].
61 Cardy, J.L., “Operator Content of Two-dimensional Conformally Invariant Theories”, Nucl. Phys. B, 270, 186–204, (1986).
62 Carlip, S., “What we don’t know about BTZ black hole entropy”, Class. Quantum Grav., 15, 3609–3625, (1998). [External LinkDOI], [External Linkhep-th/9806026].
63 Carlip, S., “Black hole entropy from conformal field theory in any dimension”, Phys. Rev. Lett., 82, 2828–2831, (1999). [External LinkDOI], [External Linkhep-th/9812013].
64 Carneiro da Cunha, B. and de Queiroz, A.R., “Kerr-CFT from black-hole thermodynamics”, J. High Energy Phys., 2010(08), 076, (2010). [External LinkDOI], [External LinkarXiv:1006.0510 [hep-th]].
65 Carter, B., “Global structure of the Kerr family of gravitational fields”, Phys. Rev., 174, 1559–1571, (1968). [External LinkDOI].
66 Carter, B., “Black Hole Equilibrium States”, in DeWitt, C. and DeWitt, B.S., eds., Black Holes, Based on lectures given at the 23rd session of the Summer School of Les Houches, 1972, pp. 57–214, (Gordon and Breach, New York, 1973).
67 Castro, A. and Larsen, F., “Near extremal Kerr entropy from AdS2 quantum gravity”, J. High Energy Phys., 2009(12), 037, (2009). [External LinkDOI], [External LinkarXiv:0908.1121 [hep-th]].
68 Castro, A., Maloney, A. and Strominger, A., “Hidden Conformal Symmetry of the Kerr Black Hole”, Phys. Rev. D, 82, 024008, (2010). [External LinkDOI], [External LinkarXiv:1004.0996 [hep-th]].
69 Chamblin, A., Emparan, R., Johnson, C.V. and Myers, R.C., “Charged AdS black holes and catastrophic holography”, Phys. Rev. D, 60, 064018, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9902170 [hep-th]].
70 Chandrasekhar, S., The Mathematical Theory of Black Holes, The International Series of Monographs on Physics, 69, (Clarendon, Oxford, 1983). [External LinkGoogle Books].
71 Chen, B., Chen, C.-M. and Ning, B., “Holographic Q-picture of Kerr–Newman–AdS–dS Black Hole”, Nucl. Phys. B, 853, 196–209, (2011). [External LinkDOI], [External LinkarXiv:1010.1379 [hep-th]].
72 Chen, B. and Chu, C.-S., “Real-Time Correlators in Kerr/CFT Correspondence”, J. High Energy Phys., 2010(05), 004, (2010). [External LinkDOI], [External LinkarXiv:1001.3208 [hep-th]].
73 Chen, B. and Long, J., “On Holographic description of the Kerr-Newman-AdS-dS black holes”, J. High Energy Phys., 2010(08), 065, (2010). [External LinkDOI], [External LinkarXiv:1006.0157 [hep-th]].
74 Chen, B. and Long, J., “Real-time Correlators and Hidden Conformal Symmetry in Kerr/CFT Correspondence”, J. High Energy Phys., 2010(06), 018, (2010). [External LinkDOI], [External LinkarXiv:1004.5039 [hep-th]].
75 Chen, B. and Zhang, J.-j., “General Hidden Conformal Symmetry of 4D Kerr-Newman and 5D Kerr Black Holes”, J. High Energy Phys., 2011(08), 114, (2011). [External LinkDOI], [External LinkarXiv:1107.0543 [hep-th]].
76 Chen, B. and Zhang, J.-j., “Novel CFT Duals for Extreme Black Holes”, Nucl. Phys. B, 856, 449–474, (2012). [External LinkDOI], [External LinkarXiv:1106.4148 [hep-th]].
77 Chen, C.-M., Huang, Y.-M., Sun, J.-R., Wu, M.-F. and Zou, S.-J., “On Holographic Dual of the Dyonic Reissner-Nordstrom Black Hole”, Phys. Rev. D, 82, 066003, (2010). [External LinkDOI], [External LinkarXiv:1006.4092 [hep-th]].
78 Chen, C.-M., Huang, Y.-M., Sun, J.-R., Wu, M.-F. and Zou, S.-J., “Twofold Hidden Conformal Symmetries of the Kerr-Newman Black Hole”, Phys. Rev. D, 82, 066004, (2010). [External LinkDOI], [External LinkarXiv:1006.4097 [hep-th]].
79 Chen, C.-M., Huang, Y.-M. and Zou, S.-J., “Holographic Duals of Near-extremal Reissner-Nordstrøm Black Holes”, J. High Energy Phys., 2010(03), 123, (2010). [External LinkDOI], [External LinkarXiv:1001.2833 [hep-th]].
80 Chen, C.-M., Kamali, V. and Setare, M.R., “Holographic Q-Picture of Black Holes in Five Dimensional Minimal Supergravity”, arXiv, e-print, (2010). [External LinkarXiv:1011.4556 [hep-th]].
81 Chen, C.-M. and Sun, J.-R., “Hidden Conformal Symmetry of the Reissner-Nordström Black Holes”, J. High Energy Phys., 2010(08), 034, (2010). [External LinkDOI], [External LinkarXiv:1004.3963 [hep-th]].
82 Chen, C.-M. and Sun, J.-R., “Holographic Dual of the Reissner-Nordström Black Hole”, J. Phys.: Conf. Ser., 330, 012009, (2011). [External LinkDOI], [External LinkarXiv:1106.4407 [hep-th]].
83 Chow, D.D.K., Cvetič, M., Lü, H. and Pope, C.N., “Extremal Black Hole/CFT Correspondence in (Gauged) Supergravities”, Phys. Rev. D, 79, 084018, (2009). [External LinkDOI], [External LinkarXiv:0812.2918 [hep-th]].
84 Christodoulou, D. and Ruffini, R., “Reversible transformations of a charged black hole”, Phys. Rev. D, 4, 3552–3555, (1971). [External LinkDOI].
85 Chruściel, P.T. and Lopes Costa, J., “On uniqueness of stationary vacuum black holes”, Asterisque, 321, 195–265, (2008). [External LinkarXiv:0806.0016 [gr-qc]].
86 Chruściel, P.T. and Wald, R.M., “Maximal hypersurfaces in asymptotically stationary space-times”, Commun. Math. Phys., 163, 561–604, (1994). [External LinkDOI], [External LinkarXiv:gr-qc/9304009 [gr-qc]].
87 Chrzanowski, P.L., “Vector Potential and Metric Perturbations of a Rotating Black Hole”, Phys. Rev. D, 11, 2042–2062, (1975). [External LinkDOI].
88 Clement, G. and Gal’tsov, D., “Conformal mechanics on rotating Bertotti–Robinson spacetime”, Nucl. Phys. B, 619, 741–759, (2001). [External LinkDOI], [External LinkarXiv:hep-th/0105237 [hep-th]].
89 Cohen, J.M. and Kegeles, L.S., “Space-time perturbations”, Phys. Lett. A, 54, 5–7, (1975). [External LinkDOI].
90 Compère, G., Symmetries and conservation laws in Lagrangian gauge theories with applications to the Mechanics of black holes and to Gravity in three dimensions, Ph.D. thesis, (Université libre de Bruxelles, Bruxelles, 2007). [External LinkarXiv:0708.3153 [hep-th]].
91 Compère, G., de Buyl, S., Jamsin, E. and Virmani, A., “G2 dualities in D = 5 supergravity and black strings”, Class. Quantum Grav., 26, 125016, (2009). [External LinkDOI], [External LinkarXiv:0903.1645 [hep-th]].
92 Compère, G. and Dehouck, F., “Relaxing the Parity Conditions of Asymptotically Flat Gravity”, Class. Quantum Grav., 28, 245016, (2011). [External LinkDOI], [External LinkarXiv:1106.4045 [hep-th]].
93 Compère, G. and Detournay, S., “Centrally extended symmetry algebra of asymptotically Gödel spacetimes”, J. High Energy Phys., 2007(03), 098, (2007). [External LinkDOI], [External LinkarXiv:hep-th/0701039].
94 Compère, G. and Detournay, S., “Boundary conditions for spacelike and timelike warped AdS3 spaces in topologically massive gravity”, J. High Energy Phys., 2009(08), 092, (2009). [External LinkDOI], [External LinkarXiv:0906.1243 [hep-th]].
95 Compère, G. and Detournay, S., “Semi-classical central charge in topologically massive gravity”, Class. Quantum Grav., 26, 012001, (2009). [External LinkDOI], [External LinkarXiv:0808.1911 [hep-th]].
96 Compère, G. and Marolf, D., “Setting the boundary free in AdS/CFT”, Class. Quantum Grav., 25, 195014, (2008). [External LinkDOI], [External LinkarXiv:0805.1902 [hep-th]].
97 Compère, G., Murata, K. and Nishioka, T., “Central Charges in Extreme Black Hole/CFT Correspondence”, J. High Energy Phys., 2009(05), 077, (2009). [External LinkDOI], [External LinkarXiv:0902.1001 [hep-th]].
98 Compère, G., Song, W. and Virmani, A., “Microscopics of Extremal Kerr from Spinning M5 Branes”, J. High Energy Phys., 2011(10), 087, (2011). [External LinkDOI], [External LinkarXiv:1010.0685 [hep-th]].
99 Copsey, K. and Horowitz, G.T., “Role of dipole charges in black hole thermodynamics”, Phys. Rev. D, 73, 024015, (2006). [External LinkDOI], [External Linkhep-th/0505278].
100 Coussaert, O. and Henneaux, M., “Self-dual solutions of 2+1 Einstein gravity with a negative cosmological constant”, arXiv, e-print, (1994). [External LinkarXiv:hep-th/9407181].
101 Cvetič, M. and Gibbons, G.W., “Conformal Symmetry of a Black Hole as a Scaling Limit: A Black Hole in an Asymptotically Conical Box”, arXiv, e-print, (2012). [External LinkarXiv:1201.0601 [hep-th]].
102 Cvetič, M., Gibbons, G.W. and Pope, C.N., “Universal Area Product Formulae for Rotating and Charged Black Holes in Four and Higher Dimensions”, Phys. Rev. Lett., 106, 121301, (2011). [External LinkDOI], [External LinkarXiv:1011.0008 [hep-th]].
103 Cvetič, M. and Larsen, F., “General rotating black holes in string theory: Grey body factors and event horizons”, Phys. Rev. D, 56, 4994–5007, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9705192 [hep-th]].
104 Cvetič, M. and Larsen, F., “Greybody factors for rotating black holes in four dimensions”, Nucl. Phys. B, 506, 107–120, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9706071 [hep-th]].
105 Cvetič, M. and Larsen, F., “Greybody factors for black holes in four-dimensions: Particles with spin”, Phys. Rev. D, 57, 6297–6310, (1998). [External LinkDOI], [External LinkarXiv:hep-th/9712118 [hep-th]].
106 Cvetič, M. and Larsen, F., “Greybody Factors and Charges in Kerr/CFT”, J. High Energy Phys., 2009(09), 088, (2009). [External LinkDOI], [External LinkarXiv:0908.1136 [hep-th]].
107 Cvetič, M. and Larsen, F., “Conformal Symmetry for Black Holes in Four Dimensions”, arXiv, e-print, (2011). [External LinkarXiv:1112.4846 [hep-th]].
108 Cvetič, M. and Larsen, F., “Conformal Symmetry for General Black Holes”, J. High Energy Phys., 2012(02), 122, (2012). [External LinkDOI], [External LinkarXiv:1106.3341 [hep-th]].
109 Cvetič, M. et al., “Embedding AdS black holes in ten and eleven dimensions”, Nucl. Phys. B, 558, 96–126, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9903214 [hep-th]].
110 Dabholkar, A., “Microstates of non-supersymmetric black holes”, Phys. Lett. B, 402, 53–58, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9702050 [hep-th]].
111 Dabholkar, A., Sen, A. and Trivedi, S.P., “Black hole microstates and attractor without supersymmetry”, J. High Energy Phys., 2007(01), 096, (2007). [External LinkDOI], [External LinkarXiv:hep-th/0611143 [hep-th]].
112 Dafermos, M., “The interior of charged black holes and the problem of uniqueness in general relativity”, Commun. Pure Appl. Math., 58, 445–504, (2005). [External LinkDOI], [External LinkarXiv:gr-qc/0307013 [gr-qc]].
113 David, J.R., Mandal, G. and Wadia, S.R., “Microscopic formulation of black holes in string theory”, Phys. Rep., 369, 549–686, (2002). [External LinkDOI], [External LinkarXiv:hep-th/0203048 [hep-th]].
114 de Boer, J., “Six-dimensional supergravity on S3×AdS 3 and 2d conformal field theory”, Nucl. Phys. B, 548, 139–166, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9806104 [hep-th]].
115 de Boer, J., Johnstone, M., Sheikh-Jabbari, M.M. and Simón, J., “Emergent IR dual 2d CFTs in charged AdS5 black holes”, arXiv, e-print, (2011). [External LinkarXiv:1112.4664 [hep-th]].
116 de Boer, J., Sheikh-Jabbari, M.M. and Simón, J., “Near Horizon Limits of Massless BTZ and Their CFT Duals”, Class. Quantum Grav., 28, 175012, (2011). [External LinkDOI], [External LinkarXiv:1011.1897 [hep-th]].
117 Denef, F., “Les Houches Lectures on Constructing String Vacua”, arXiv, e-print, (2008). [External LinkarXiv:0803.1194 [hep-th]].
118 Denef, F. and Moore, G.W., “Split states, entropy enigmas, holes and halos”, J. High Energy Phys., 2011(11), 129, (2011). [External LinkDOI], [External LinkarXiv:hep-th/0702146 [HEP-TH]].
119 Detournay, S., Orlando, D., Petropoulos, P.M. and Spindel, P., “Three-dimensional black holes from deformed anti de Sitter”, J. High Energy Phys., 2005(07), 072, (2005). [External LinkDOI], [External Linkhep-th/0504231].
120 Di Francesco, P., Mathieu, P. and Sénéchal, D., Conformal Field Theory, Graduate Texts in Contemporary Physics, (Springer, New York; Berlin, 1997).
121 Dias, O.J.C., Emparan, R. and Maccarrone, A., “Microscopic theory of black hole superradiance”, Phys. Rev. D, 77, 064018, (2008). [External LinkDOI], [External LinkarXiv:0712.0791 [hep-th]].
122 Dias, O.J. C., Reall, H.S. and Santos, J.E., “Kerr-CFT and gravitational perturbations”, J. High Energy Phys., 2009(08), 101, (2009). [External LinkDOI], [External LinkarXiv:0906.2380 [hep-th]].
123 Dijkgraaf, R., “Instanton strings and hyperKahler geometry”, Nucl. Phys. B, 543, 545–571, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9810210 [hep-th]].
124 Dotti, G., Gleiser, R.J. and Ranea-Sandoval, I.F., “Instabilities in Kerr spacetimes”, Int. J. Mod. Phys. E, 20, 27–31, (2011). [External LinkDOI], [External LinkarXiv:1111.5974 [gr-qc]].
125 Dotti, G., Gleiser, R.J., Ranea-Sandoval, I.F. and Vucetich, H., “Gravitational instabilities in Kerr space times”, Class. Quantum Grav., 25, 245012, (2008). [External LinkDOI], [External LinkarXiv:0805.4306 [gr-qc]].
126 Dowker, F., Gauntlett, J.P., Giddings, S.B. and Horowitz, G.T., “On pair creation of extremal black holes and Kaluza-Klein monopoles”, Phys. Rev. D, 50, 2662–2679, (1994). [External LinkDOI], [External LinkarXiv:hep-th/9312172 [hep-th]].
127 Duff, M.J., Lü, H. and Pope, C.N., “AdS3 × S3 (un)twisted and squashed, and an O(2, 2,Z) multiplet of dyonic strings”, Nucl. Phys. B, 544, 145–180, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9807173 [hep-th]].
128 Duffy, G. and Ottewill, A.C., “The Renormalized stress tensor in Kerr space-time: Numerical results for the Hartle-Hawking vacuum”, Phys. Rev. D, 77, 024007, (2008). [External LinkDOI], [External LinkarXiv:gr-qc/0507116 [gr-qc]].
129 Durkee, M. and Reall, H.S., “Perturbations of near-horizon geometries and instabilities of Myers-Perry black holes”, Phys. Rev. D, 83, 104044, (2011). [External LinkDOI], [External LinkarXiv:1012.4805 [hep-th]].
130 El-Showk, S. and Guica, M., “Kerr/CFT, dipole theories and nonrelativistic CFTs”, arXiv, e-print, (2011). [External LinkarXiv:1108.6091 [hep-th]].
131 Emparan, R. and Horowitz, G.T., “Microstates of a Neutral Black Hole in M Theory”, Phys. Rev. Lett., 97, 141601, (2006). [External LinkDOI], [External LinkarXiv:hep-th/0607023 [hep-th]].
132 Emparan, R. and Maccarrone, A., “Statistical description of rotating Kaluza-Klein black holes”, Phys. Rev. D, 75, 084006, (2007). [External LinkDOI], [External LinkarXiv:hep-th/0701150 [hep-th]].
133 Emparan, R. and Reall, H.S., “A rotating black ring in five dimensions”, Phys. Rev. Lett., 88, 101101, (2002). [External LinkDOI], [External Linkhep-th/0110260].
134 Fabian, A.C. et al., “Broad line emission from iron K- and L-shell transitions in the active galaxy 1H0707-495”, Nature, 459, 540–542, (2009). [External LinkDOI], [External LinkADS].
135 Fareghbal, R., Gowdigere, C.N., Mosaffa, A.E. and Sheikh-Jabbari, M.M., “Nearing extremal intersecting giants and new decoupled sectors in N = 4 SYM”, J. High Energy Phys., 2008(08), 070, (2008). [External LinkDOI], [External LinkarXiv:0801.4457 [hep-th]].
136 Faulkner, T., Liu, H., McGreevy, J. and Vegh, D., “Emergent quantum criticality, Fermi surfaces, and AdS2”, Phys. Rev. D, 83, 125002, (2011). [External LinkDOI], [External LinkarXiv:0907.2694 [hep-th]].
137 Fefferman, C. and Robin Graham, C., “Conformal Invariants”, in Élie Cartan et les mathématiques d’aujourd’hui, The mathematical heritage of Elie Cartan, Lyon, 25 – 29 June 1984, Astérisque, p. 95, (Société mathématique de France, Paris, 1985).
138 Fender, R.P., Gallo, E. and Russell, D., “No evidence for black hole spin powering of jets in X-ray binaries”, Mon. Not. R. Astron. Soc., 406, 1425–1434, (2010). [External LinkDOI], [External LinkADS], [External LinkarXiv:1003.5516 [astro-ph.HE]].
139 Ferrara, S., Gibbons, G.W. and Kallosh, R., “Black holes and critical points in moduli space”, Nucl. Phys. B, 500, 75–93, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9702103 [hep-th]].
140 Ferrara, S. and Kallosh, R., “Supersymmetry and attractors”, Phys. Rev. D, 54, 1514–1524, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9602136 [hep-th]].
141 Ferrara, S., Kallosh, R. and Strominger, A., “N = 2 extremal black holes”, Phys. Rev., 52, 5412–5416, (1995). [External LinkDOI], [External LinkarXiv:hep-th/9508072].
142 Floyd, R., The Dynamics of Kerr Fields, Ph.D. thesis, (London University, London, 1973).
143 Friedrich, H., Rácz, I. and Wald, R.M., “On the Rigidity Theorem for Spacetimes with a Stationary Event Horizon or a Compact Cauchy Horizon”, Commun. Math. Phys., 204, 691–707, (1999). [External LinkDOI], [External Linkgr-qc/9811021].
144 Frolov, V.P. and Thorne, K.S., “Renormalized stress-energy tensor near the horizon of a slowly evolving, rotating black hole”, Phys. Rev. D, 39, 2125–2154, (1989). [External LinkDOI].
145 Futterman, J.A.H., Handler, F.A. and Matzner, R.A., Scattering from Black Holes, Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge, 1988).
146 Garousi, M.R. and Ghodsi, A., “The RN/CFT Correspondence”, Phys. Lett. B, 687, 79–83, (2010). [External LinkDOI], [External LinkarXiv:0902.4387 [hep-th]].
147 Geroch, R., “Structure of the Gravitational Field at Spatial Infinity”, J. Math. Phys., 13, 956–968, (1972). [External LinkDOI].
148 Gibbons, G.W., Rietdijk, R.H. and van Holten, J.W., “SUSY in the sky”, Nucl. Phys. B, 404, 42–64, (1993). [External LinkDOI], [External LinkarXiv:hep-th/9303112 [hep-th]].
149 Ginsparg, P.H., “Applied Conformal Field Theory”, arXiv, e-print, (1988). [External LinkarXiv:hep-th/9108028 [hep-th]].
150 Goldstein, K., Iizuka, N., Jena, R.P. and Trivedi, S.P., “Non-supersymmetric attractors”, Phys. Rev. D, 72, 124021, (2005). [External LinkDOI], [External LinkarXiv:hep-th/0507096 [hep-th]].
151 Goldstein, K. and Soltanpanahi, H., “CFT duals of black rings with higher derivative terms”, Class. Quantum Grav., 29, 085016, (2012). [External LinkDOI], [External LinkarXiv:1108.4362 [hep-th]].
152 Gou, L. et al., “The extreme spin of the black hole in Cygnus X-1”, Astrophys. J., 742, 85, (2011). [External LinkDOI], [External LinkarXiv:1106.3690 [astro-ph.HE]].
153 Grana, M., “Flux compactifications in string theory: A Comprehensive review”, Phys. Rep., 423, 91–158, (2006). [External LinkDOI], [External LinkarXiv:hep-th/0509003 [hep-th]].
154 Grumiller, D. and Piso, A.-M., “Exact relativistic viscous fluid solutions in near horizon extremal Kerr background”, arXiv, e-print, (2009). [External LinkarXiv:0909.2041 [astro-ph.SR]].
155 Gubser, S.S., Dynamics of D-brane black holes, Ph.D. thesis, (Princeton University, Princeton, 1998). [External LinkarXiv:hep-th/9908004 [hep-th]].
156 Guica, M., Hartman, T., Song, W. and Strominger, A., “The Kerr/CFT Correspondence”, Phys. Rev. D, 80, 124008, (2009). [External LinkDOI], [External LinkarXiv:0809.4266 [hep-th]].
157 Guica, M. and Strominger, A., “Microscopic Realization of the Kerr/CFT Correspondence”, J. High Energy Phys., 2011(02), 010, (2011). [External LinkDOI], [External LinkarXiv:1009.5039 [hep-th]].
158 Gürses, M., “Perfect fluid sources in 2+1 dimensions”, Class. Quantum Grav., 11, 2585–2587, (1994). [External LinkDOI].
159 Hartman, T., Murata, K., Nishioka, T. and Strominger, A., “CFT Duals for Extreme Black Holes”, J. High Energy Phys., 2009(04), 019, (2009). [External LinkDOI], [External LinkarXiv:0811.4393 [hep-th]].
160 Hartman, T., Song, W. and Strominger, A., “Holographic Derivation of Kerr-Newman Scattering Amplitudes for General Charge and Spin”, J. High Energy Phys., 2010(03), 118, (2010). [External LinkDOI], [External LinkarXiv:0908.3909 [hep-th]].
161 Hawking, S.W., “Black holes in general relativity”, Commun. Math. Phys., 25, 152–166, (1972). [External LinkDOI].
162 Hawking, S.W., “Particle creation by black holes”, Commun. Math. Phys., 43, 199–220, (1975). [External LinkDOI].
163 Hawking, S.W. and Ellis, G.F.R., The Large Scale Structure of Space-Time, Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge, 1973). [External LinkGoogle Books].
164 Hawking, S.W. and Horowitz, G.T., “The gravitational Hamiltonian, action, entropy and surface terms”, Class. Quantum Grav., 13, 1487–1498, (1996). [External LinkDOI], [External Linkgr-qc/9501014].
165 Hawking, S.W. and Reall, H.S., “Charged and rotating AdS black holes and their CFT duals”, Phys. Rev. D, 61, 024014, (2000). [External LinkDOI], [External LinkarXiv:hep-th/9908109 [hep-th]].
166 Hayashi, H. and Tai, T.-S., “R2 Correction to BMPV Black Hole Entropy from Kerr/CFT Correspondence”, Phys. Lett. B, 710, 352–357, (2012). [External LinkDOI], [External LinkarXiv:1112.5417 [hep-th]].
167 Henneaux, M., “Asymptotically anti-de Sitter universes in d = 3, 4 and higher dimensions”, in Ruffini, R., ed., Proceedings of the Fourth Marcel Grossmann Meeting on General Relativity, Held at the University of Rome La Sapienza, Rome, 17 – 21 June 1985, pp. 959–966, (North-Holland, Amsterdam; New York, 1986).
168 Henneaux, M. and Teitelboim, C., “Asymptotically anti-de Sitter spaces”, Commun. Math. Phys., 98, 391–424, (1985). [External LinkDOI]. Online version (accessed 1 May 2012):
External Linkhttp://projecteuclid.org/euclid.cmp/1103942446.
169 Hofman, D.M. and Strominger, A., “Chiral Scale and Conformal Invariance in 2D Quantum Field Theory”, Phys. Rev. Lett., 107, 161601, (2011). [External LinkDOI], [External LinkarXiv:1107.2917 [hep-th]].
170 Hollands, S. and Ishibashi, A., “On the ‘Stationary Implies Axisymmetric’ Theorem for Extremal Black Holes in Higher Dimensions”, Commun. Math. Phys., 291, 403–441, (2009). [External LinkDOI], [External LinkarXiv:0809.2659 [gr-qc]].
171 Hollands, S., Ishibashi, A. and Wald, R.M., “A Higher Dimensional Stationary Rotating Black Hole Must be Axisymmetric”, Commun. Math. Phys., 271, 699–722, (2007). [External LinkDOI], [External Linkgr-qc/0605106].
172 Horowitz, G.T., Lowe, D.A. and Maldacena, J.M., “Statistical Entropy of Nonextremal Four-Dimensional Black Holes and U Duality”, Phys. Rev. Lett., 77, 430–433, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9603195 [hep-th]].
173 Isono, H., Tai, T.-S. and Wen, W.-Y., “Kerr/CFT correspondence and five-dimensional BMPV black holes”, Int. J. Mod. Phys. A, 24, 5659–5668, (2009). [External LinkDOI], [External LinkarXiv:0812.4440 [hep-th]].
174 Israël, D., Kounnas, C., Orlando, D. and Petropoulos, P.M., “Electric/magnetic deformations of S3 and AdS 3, and geometric cosets”, Fortschr. Phys., 53, 73–104, (2005). [External LinkDOI], [External Linkhep-th/0405213].
175 Israël, D., Kounnas, C. and Petropoulos, P.M., “Superstrings on NS5 backgrounds, deformed AdS3 and holography”, J. High Energy Phys., 2003(10), 028, (2003). [External LinkDOI], [External LinkarXiv:hep-th/0306053].
176 Iyer, V. and Wald, R.M., “Some properties of Noether charge and a proposal for dynamical black hole entropy”, Phys. Rev., 50, 846–864, (1994). [External LinkDOI], [External Linkgr-qc/9403028].
177 Jacobson, T.A., “Introductory Lectures on Black Hole Thermodynamics”, lecture notes, University of Maryland, (1996). URL (accessed 26 April 2012):
External Linkhttp://www.physics.umd.edu/grt/taj/776b/.
178 Jacobson, T.A., Kang, G. and Myers, R.C., “On black hole entropy”, Phys. Rev., 49, 6587–6598, (1994). [External LinkDOI], [External LinkarXiv:gr-qc/9312023].
179 Kallosh, R.E., “New attractors”, J. High Energy Phys., 2005(12), 022, (2005). [External LinkDOI], [External LinkarXiv:hep-th/0510024 [hep-th]].
180 Kang, G., Koga, J. and Park, M.-I., “Near horizon conformal symmetry and black hole entropy in any dimension”, Phys. Rev. D, 70, 024005, (2004). [External LinkDOI], [External LinkarXiv:hep-th/0402113 [hep-th]].
181 Kaplan, D.M., Lowe, D.A., Maldacena, J.M. and Strominger, A., “Microscopic entropy of N = 2 extremal black holes”, Phys. Rev. D, 55, 4898–4902, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9609204 [hep-th]].
182 Kato, S., “Mass and Spin of GRS 1915+105 Based on a Resonance Model of QPOs”, Publ. Astron. Soc. Japan, 56, L25–L28, (2004). [External LinkADS], [External LinkarXiv:astro-ph/0407251].
183 Kay, B.S. and Wald, R.M., “Theorems on the Uniqueness and Thermal Properties of Stationary, Nonsingular, Quasifree States on Space-Times with a Bifurcate Killing Horizon”, Phys. Rep., 207, 49–136, (1991). [External LinkDOI], [External LinkADS].
184 Kim, S.P. and Page, D.N., “Schwinger pair production in dS2 and AdS2”, Phys. Rev. D, 78, 103517, (2008). [External LinkDOI], [External LinkarXiv:0803.2555 [hep-th]].
185 Kim, S.-S., Lindman Hörnlund, J., Palmkvist, J. and Virmani, A., “Extremal solutions of the S3 model and nilpotent orbits of G 2(2)”, J. High Energy Phys., 2010(08), 072, (2010). [External LinkDOI], [External LinkarXiv:1004.5242 [hep-th]].
186 Klemm, A. and Schmidt, M.G., “Orbifolds by cyclic permutations of tensor product conformal field theories”, Phys. Lett. B, 245, 53–58, (1990). [External LinkDOI].
187 Kraus, P., “Lectures on Black Holes and the AdS3/CFT2 Correspondence”, in Bellucci, S., ed., Supersymmetric Mechanics – Vol. 3: Attractors and Black Holes in Supersymmetric Gravity, INFN Frascati Winter School, Lecture Notes in Physics, 755, pp. 193–247, (Springer, Berlin; New York, 2008). [External LinkDOI], [External LinkarXiv:hep-th/0609074 [hep-th]].
188 Kraus, P. and Larsen, F., “Holographic gravitational anomalies”, J. High Energy Phys., 2006(01), 022, (2006). [External LinkDOI], [External LinkarXiv:hep-th/0508218].
189 Krishnan, C., “Hidden Conformal Symmetries of Five-Dimensional Black Holes”, J. High Energy Phys., 2010(07), 039, (2010). [External LinkDOI], [External LinkarXiv:1004.3537 [hep-th]].
190 Krishnan, C. and Kuperstein, S., “A Comment on Kerr-CFT and Wald Entropy”, Phys. Lett. B, 677, 326–331, (2009). [External LinkDOI], [External LinkarXiv:0903.2169 [hep-th]].
191 Kunduri, H.K., “Electrovacuum Near-horizon Geometries in Four and Five Dimensions”, Class. Quantum Grav., 28, 114010, (2011). [External LinkDOI], [External LinkarXiv:1104.5072 [hep-th]].
192 Kunduri, H.K. and Lucietti, J., “A classification of near-horizon geometries of extremal vacuum black holes”, J. Math. Phys., 50, 082502, (2009). [External LinkDOI], [External LinkarXiv:0806.2051 [hep-th]].
193 Kunduri, H.K. and Lucietti, J., “Uniqueness of near-horizon geometries of rotating extremal AdS(4) black holes”, Class. Quantum Grav., 26, 055019, (2009). [External LinkDOI], [External LinkarXiv:0812.1576 [hep-th]].
194 Kunduri, H.K., Lucietti, J. and Reall, H.S., “Near-horizon symmetries of extremal black holes”, Class. Quantum Grav., 24, 4169–4190, (2007). [External LinkDOI], [External LinkarXiv:0705.4214 [hep-th]].
195 Larsen, F., “A String model of black hole microstates”, Phys. Rev. D, 56, 1005–1008, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9702153 [hep-th]].
196 Lee, J. and Wald, R.M., “Local symmetries and constraints”, J. Math. Phys., 31, 725–743, (1990). [External LinkDOI].
197 Long, J.C. and Price, J.C., “Current short range tests of the gravitational inverse square law”, C. R. Physique, 4, 337–346, (2003). [External LinkDOI], [External LinkarXiv:hep-ph/0303057 [hep-ph]].
198 Lopes Cardoso, G., de Wit, B., Käppeli, J. and Mohaupt, T., “Stationary BPS solutions in N = 2 supergravity with R2-interactions”, J. High Energy Phys., 2000(12), 019, (2000). [External LinkDOI], [External LinkarXiv:hep-th/0009234 [hep-th]].
199 Lopes Cardoso, G., de Wit, B. and Mohaupt, T., “Corrections to macroscopic supersymmetric black hole entropy”, Phys. Lett. B, 451, 309–316, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9812082 [hep-th]].
200 Lopes Cardoso, G., de Wit, B. and Mohaupt, T., “Macroscopic entropy formulae and nonholomorphic corrections for supersymmetric black holes”, Nucl. Phys. B, 567, 87–110, (2000). [External LinkDOI], [External LinkarXiv:hep-th/9906094 [hep-th]].
201 Loran, F. and Soltanpanahi, H., “5D Extremal Rotating Black Holes and CFT duals”, Class. Quantum Grav., 26, 155019, (2009). [External LinkDOI], [External LinkarXiv:0901.1595 [hep-th]].
202 Lowe, D.A. and Skanata, A., “Generalized hidden Kerr/CFT”, arXiv, e-print, (2011). [External LinkarXiv:1112.1431 [hep-th]].
203 Lü, H., Mei, J. and Pope, C.N., “Kerr/CFT Correspondence in Diverse Dimensions”, J. High Energy Phys., 2009(04), 054, (2009). [External LinkDOI], [External LinkarXiv:0811.2225 [hep-th]].
204 Lü, H., Mei, J., Pope, C.N. and Vázquez-Poritz, J.F., “Extremal static AdS black hole/CFT correspondence in gauged supergravities”, Phys. Lett. B, 673, 77–82, (2009). [External LinkDOI], [External LinkarXiv:0901.1677 [hep-th]].
205 Maldacena, J.M., “The large N limit of superconformal field theories and supergravity”, Adv. Theor. Math. Phys., 2, 231–252, (1998). [External LinkarXiv:hep-th/9711200 [hep-th]].
206 Maldacena, J.M., “The Large-N Limit of Superconformal Field Theories and Supergravity”, Adv. Theor. Math. Phys., 2, 231–252, (1998). [External LinkDOI], [External LinkarXiv:hep-th/9711200 [hep-th]].
207 Maldacena, J.M., Michelson, J. and Strominger, A., “Anti-de Sitter fragmentation”, J. High Energy Phys., 1999(02), 011, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9812073 [hep-th]].
208 Maldacena, J.M. and Strominger, A., “Black hole greybody factors and D-brane spectroscopy”, Phys. Rev. D, 55, 861–870, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9609026 [hep-th]].
209 Maldacena, J.M. and Strominger, A., “Universal low-energy dynamics for rotating black holes”, Phys. Rev. D, 56, 4975–4983, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9702015 [hep-th]].
210 Maldacena, J.M. and Strominger, A., “AdS3 black holes and a stringy exclusion principle”, J. High Energy Phys., 1998(12), 005, (1998). [External LinkDOI], [External LinkarXiv:hep-th/9804085].
211 Maldacena, J.M. and Susskind, L., “D-branes and fat black holes”, Nucl. Phys. B, 475, 679–690, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9604042 [hep-th]].
212 Marolf, D., “The dangers of extremes”, Gen. Relativ. Gravit., 42, 2337–2343, (2010). [External LinkDOI], [External LinkarXiv:1005.2999 [gr-qc]].
213 Marolf, D. and Ross, S.F., “Boundary conditions and new dualities: Vector fields in AdS/CFT”, J. High Energy Phys., 2006(11), 085, (2006). [External LinkDOI], [External Linkhep-th/0606113].
214 Matsuo, Y. and Nishioka, T., “New Near Horizon Limit in Kerr/CFT”, J. High Energy Phys., 2010(12), 073, (2010). [External LinkDOI], [External LinkarXiv:1010.4549 [hep-th]].
215 Matsuo, Y., Tsukioka, T. and Yoo, C.-M., “Another Realization of Kerr/CFT Correspondence”, Nucl. Phys. B, 825, 231–241, (2010). [External LinkDOI], [External LinkarXiv:0907.0303 [hep-th]].
216 Matsuo, Y., Tsukioka, T. and Yoo, C.-M., “Yet Another Realization of Kerr/CFT Correspondence”, Europhys. Lett., 89, 60001, (2010). [External LinkDOI], [External LinkarXiv:0907.4272 [hep-th]].
217 McAllister, L. and Silverstein, E., “String Cosmology: A Review”, Gen. Relativ. Gravit., 40, 565–605, (2008). [External LinkDOI], [External LinkarXiv:0710.2951 [hep-th]].
218 McClintock, J.E., Shafee, R., Narayan, R., Remillard, R.A., Davis, S.W. et al., “The Spin of the Near-Extreme Kerr Black Hole GRS 1915+105”, Astrophys. J., 652, 518–539, (2006). [External LinkDOI], [External LinkarXiv:astro-ph/0606076 [astro-ph]].
219 McClintok, J.E. and Remillard, R.A., “Measuring the Spins of Stellar-Mass Black Holes”, in Astro2010: The Astronomy and Astrophysics Decadal Survey – Science White Papers, (National Academy of Sciences, Washington, DC, 2009). [External LinkADS], [External LinkarXiv:0902.3488 [astro-ph.HE]]. URL (accessed 13 June 2012):
External Linkhttp://sites.nationalacademies.org/bpa/BPA_050603.
220 McNamara, J.M., “Instability of Black Hole Inner Horizons”, Proc. R. Soc. London, Ser. A, 358, 499–517, (1978). [External LinkDOI].
221 Mei, J., “The Entropy for General Extremal Black Holes”, J. High Energy Phys., 2010(04), 005, (2010). [External LinkDOI], [External LinkarXiv:1002.1349 [hep-th]].
222 Moussa, K.A., Clément, G., Guennoune, H. and Leygnac, C., “Three-dimensional Chern-Simons black holes”, Phys. Rev. D, 78, 064065, (2008). [External LinkDOI], [External LinkarXiv:0807.4241 [gr-qc]].
223 Moussa, K.A., Clément, G. and Leygnac, C., “Black holes of topologically massive gravity”, Class. Quantum Grav., 20, L277–L283, (2003). [External LinkDOI], [External LinkarXiv:gr-qc/0303042 [gr-qc]].
224 Murata, K., “Conformal weights in the Kerr/CFT correspondence”, J. High Energy Phys., 2011(05), 117, (2011). [External LinkDOI], [External LinkarXiv:1103.5635 [hep-th]].
225 Nakayama, Y., “Emerging AdS from Extremally Rotating NS5-branes”, Phys. Lett. B, 673, 272–278, (2009). [External LinkDOI], [External LinkarXiv:0812.2234 [hep-th]].
226 Nutku, Y., “Exact solutions of topologically massive gravity with a cosmological constant”, Class. Quantum Grav., 10, 2657–2661, (1993). [External LinkDOI].
227 Ooguri, H., Strominger, A. and Vafa, C., “Black hole attractors and the topological string”, Phys. Rev. D, 70, 106007, (2004). [External LinkDOI], [External LinkarXiv:hep-th/0405146].
228 Ottewill, A.C. and Winstanley, E., “Divergence of a quantum thermal state on Kerr space-time”, Phys. Lett. A, 273, 149–152, (2000). [External LinkDOI], [External LinkarXiv:gr-qc/0005108 [gr-qc]].
229 Ottewill, A.C. and Winstanley, E., “The Renormalized stress tensor in Kerr space-time: general results”, Phys. Rev. D, 62, 084018, (2000). [External LinkDOI], [External LinkarXiv:gr-qc/0004022 [gr-qc]].
230 Pakman, A., Rastelli, L. and Razamat, S.S., “Diagrams for Symmetric Product Orbifolds”, J. High Energy Phys., 2009(10), 034, (2009). [External LinkDOI], [External LinkarXiv:0905.3448 [hep-th]].
231 Penrose, R., “Asymptotic Properties of Fields and Space-Times”, Phys. Rev. Lett., 10, 66–68, (1963). [External LinkDOI], [External LinkADS].
232 Penrose, R., “Naked singularities”, Ann. N.Y. Acad. Sci., 224, 125–134, (1973). [External LinkDOI].
233 Pioline, B. and Troost, J., “Schwinger pair production in AdS2”, J. High Energy Phys., 2005(03), 043, (2005). [External LinkDOI], [External LinkarXiv:hep-th/0501169 [hep-th]].
234 Polchinski, J., String Theory. Vol. 1: An Introduction to the Bosonic String, Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge; New York, 1998). [External LinkGoogle Books].
235 Press, W.H. and Teukolsky, S.A., “Perturbations of a Rotating Black Hole. II. Dynamical Stability of the Kerr Metric”, Astrophys. J., 185, 649–673, (1973). [External LinkDOI], [External LinkADS].
236 Rasmussen, J., “Isometry-preserving boundary conditions in the Kerr/CFT correspondence”, Int. J. Mod. Phys. A, 25, 1597–1613, (2010). [External LinkDOI], [External LinkarXiv:0908.0184 [hep-th]].
237 Regge, T. and Teitelboim, C., “Role of surface integrals in the Hamiltonian formulation of general relativity”, Ann. Phys. (N.Y.), 88, 286–318, (1974). [External LinkDOI].
238 Rooman, M. and Spindel, P., “Gödel metric as a squashed anti-de Sitter geometry”, Class. Quantum Grav., 15, 3241–3249, (1998). [External LinkDOI], [External Linkgr-qc/9804027].
239 Seiberg, N., “Why is the matrix model correct?”, Phys. Rev. Lett., 79, 3577–3580, (1997). [External LinkDOI], [External LinkarXiv:hep-th/9710009 [hep-th]].
240 Sen, A., “Black hole entropy function and the attractor mechanism in higher derivative gravity”, J. High Energy Phys., 2005(09), 038, (2005). [External LinkDOI], [External LinkarXiv:hep-th/0506177 [hep-th]].
241 Sen, A., “Logarithmic Corrections to Rotating Extremal Black Hole Entropy in Four and Five Dimensions”, arXiv, e-print, (2011). [External LinkarXiv:1109.3706 [hep-th]].
242 Shao, K.-N. and Zhang, Z., “Hidden Conformal Symmetry of Rotating Black Hole with four Charges”, Phys. Rev. D, 83, 106008, (2011). [External LinkDOI], [External LinkarXiv:1008.0585 [hep-th]].
243 Sheikh-Jabbari, M.M. and Yavartanoo, H., “EVH Black Holes, AdS3 Throats and EVH/CFT Proposal”, J. High Energy Phys., 2011(10), 013, (2011). [External LinkDOI], [External LinkarXiv:1107.5705 [hep-th]].
244 Simón, J., “Extremal black holes, holography and coarse graining”, Int. J. Mod. Phys. A, 26, 1903–1971, (2011). [External LinkDOI], [External LinkarXiv:1106.0116 [hep-th]].
245 Solodukhin, S.N., “Conformal description of horizon’s states”, Phys. Lett. B, 454, 213–222, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9812056 [hep-th]].
246 Song, W. and Strominger, A., “D-brane Construction of the 5D NHEK Dual”, arXiv, e-print, (2011). [External LinkarXiv:1105.0431 [hep-th]].
247 Spradlin, M. and Strominger, A., “Vacuum states for AdS2 black holes”, J. High Energy Phys., 1999(11), 021, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9904143 [hep-th]].
248 Starobinskii, A.A., “Amplification of waves during reflection from a rotating ‘black hole”’, J. Exp. Theor. Phys., 37, 48–57, (1973).
249 Starobinskii, A.A. and Churilov, S.M., “Amplification of electromagnetic and gravitational waves scattered by a rotating ‘black hole”’, J. Exp. Theor. Phys., 38, 3–11, (1974).
250 Strominger, A., “Macroscopic entropy of N = 2 extremal black holes”, Phys. Lett. B, 383, 39–43, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9602111 [hep-th]].
251 Strominger, A., “Black hole entropy from near-horizon microstates”, J. High Energy Phys., 1998(02), 009, (1998). [External LinkDOI], [External Linkhep-th/9712251].
252 Strominger, A., “AdS2 quantum gravity and string theory”, J. High Energy Phys., 1999(01), 007, (1999). [External LinkDOI], [External LinkarXiv:hep-th/9809027 [hep-th]].
253 Strominger, A. and Vafa, C., “Microscopic Origin of the Bekenstein-Hawking Entropy”, Phys. Lett. B, 379, 99–104, (1996). [External LinkDOI], [External LinkarXiv:hep-th/9601029].
254 Sudarsky, D. and Wald, R.M., “Extrema of mass, stationarity, and staticity, and solutions to the Einstein-Yang-Mills equations”, Phys. Rev., 46, 1453–1474, (1992). [External LinkDOI].
255 Teukolsky, S.A., “Rotating black holes: Separable wave equations for gravitational and electromagnetic perturbations”, Phys. Rev. Lett., 29, 1114–1118, (1972). [External LinkDOI].
256 Teukolsky, S.A., “Perturbations of a rotating black hole. I. Fundamental equations for gravitational, electromagnetic, and neutrino-field perturbations”, Astrophys. J., 185, 635–647, (1973). [External LinkDOI], [External LinkADS].
257 Teukolsky, S.A. and Press, W.H., “Perturbations of a rotating black hole. III. Interaction of the hole with gravitational and electromagnetic radiation”, Astrophys. J., 193, 443–461, (1974). [External LinkDOI].
258 Thorne, K.S., “Disk-accretion onto a black hole. II. Evolution of the hole”, Astrophys. J., 191, 507–520, (1974). [External LinkDOI].
259 Townsend, P.K., “Black holes”, arXiv, e-print, (1997). [External LinkarXiv:gr-qc/9707012].
260 Tripathy, P.K. and Trivedi, S.P., “Non-supersymmetric attractors in string theory”, J. High Energy Phys., 2006(03), 022, (2006). [External LinkDOI], [External LinkarXiv:hep-th/0511117 [hep-th]].
261 Virmani, A., “Supertranslations and Holographic Stress Tensor”, J. High Energy Phys., 2012(02), 024, (2012). [External LinkDOI], [External LinkarXiv:1112.2146 [hep-th]].
262 Wald, R.M., “Black hole entropy is Noether charge”, Phys. Rev., 48, R3427–R3431, (1993). [External LinkDOI], [External LinkarXiv:gr-qc/9307038].
263 Wang, Y.-Q. and Liu, Y.-X., “Hidden Conformal Symmetry of the Kerr-Newman Black Hole”, J. High Energy Phys., 2010(08), 087, (2010). [External LinkDOI], [External LinkarXiv:1004.4661 [hep-th]].
264 Winstanley, E., “On classical super-radiance in Kerr–Newman–anti-de Sitter black holes”, Phys. Rev. D, 64, 104010, (2001). [External LinkDOI], [External LinkarXiv:gr-qc/0106032 [gr-qc]].
265 Witten, E., “Anti-de Sitter space and holography”, Adv. Theor. Math. Phys., 2, 253–291, (1998). [External LinkarXiv:hep-th/9802150 [hep-th]].
266 Witten, E., “Multi-trace operators, boundary conditions, and AdS/CFT correspondence”, arXiv, e-print, (2001). [External LinkarXiv:hep-th/0112258].
267 Witten, E., “SL(2,Z) action on three-dimensional conformal field theories with Abelian symmetry”, arXiv, e-print, (2003). [External LinkarXiv:hep-th/0307041].
268 Wu, X.-N. and Tian, Y., “Extremal Isolated Horizon/CFT Correspondence”, Phys. Rev. D, 80, 024014, (2009). [External LinkDOI], [External LinkarXiv:0904.1554 [hep-th]].
269 Yano, K., “Some remarks on tensor fields and curvature”, Ann. Math., 55, 328–347, (1952). [External LinkDOI]. Online version (accessed 1 May 2012):
External Linkhttp://www.jstor.org/stable/1969782.
270 Youm, D., “Entropy of nonextreme rotating black holes in string theories”, Nucl. Phys. B, 509, 431–460, (1998). [External LinkDOI], [External LinkarXiv:hep-th/9706046 [hep-th]].