1 Duff M J, Nilsson B E W, Pope C N. Kaluza-Klein supergravity. Phys Rep, 1986, 130: 1-142
[2]
2 Frolov V P, Zelnikov A I, Bleyer U. Charged rotating black hole from five dimensional point of view. Ann Phys, 1987, 499: 371-377
[3]
3 Gibbons G W, Wiltshire D L. Black holes in Kaluza-Klein theory. Ann Phys, 1986, 167: 201-223
[4]
4 Rasheed D. The rotating dyonic black holes of Kaluza-Klein theory. Nucl Phys B, 1995, 454: 379-401
[5]
5 Larsen F. Rotating Kaluza-Klein black holes. Nucl Phys B, 2000, 575: 211-230
[6]
6 Emparan R, Horowitz G T. Microstates of a neutral black hole in M theory. Phys Rev Lett, 2006, 97: 141601
[7]
7 Horowitz G T, Roberts M M. Counting the microstates of a Kerr black hole. Phys Rev Lett, 2007, 99: 221601
[8]
8 Emparan R, Maccarrone A. Statistical description of rotating Kaluza-Klein black holes. Phys Rev D, 2007, 75: 084006
[9]
9 Cveti? M, Duff M J, Hoxha P, et al. Embedding AdS black holes in ten and eleven dimensions. Nucl Phys B, 1999, 558: 96-126
[10]
10 de Wit B, Nicolai H. N = 8 supergravity. Nucl Phys B, 1982, 208: 323-364
[11]
11 Dall'Agata G, Inverso G, Trigiante M. Evidence for a family of SO(8) gauged supergravity theories. Phys Rev Lett, 2012, 109: 201301
[12]
12 Lü H, Pang Y, Pope C N. An ω deformation of gauged STU supergravity. J High Energy Phys, 2014, (4): 175
[13]
13 Wu S Q, Li S L. Thermodynamics of static dyonic AdS black holes in the ω-deformed Kaluza-Klein gauged supergravity theory. Phys Lett B, 2015, 746: 276-280
[14]
14 Lü H, Pang Y, Pope C N. AdS dyonic black hole and its thermodynamics. J High Energy Phys, 2013, (11): 33
[15]
15 Anabalon A, Astefanesei D. Black holes in ω-deformed gauged N=8 supergravity. Phys Lett B, 2014, 732: 137-141
