Quantum Isometry Groups of Noncommutative Manifolds Obtained by Deformation Using Dual Unitary 2-Cocycles
Debashish Goswami, Soumalya Joardar

References
1.	Banica T., “Quantum automorphism groups of homogeneous graphs”, J. Funct. Anal., 224 (2005), 243–280, arXiv: math.QA/0311402
2.	Banica T., Goswami D., “Quantum isometries and noncommutative spheres”, Comm. Math. Phys., 298 (2010), 343–356, arXiv: 0905.3814
3.	Bhowmick J., Goswami D., “Quantum group of orientation-preserving {R}iemannian isometries”, J. Funct. Anal., 257 (2009), 2530–2572, arXiv: 0806.3687
4.	Bhowmick J., Goswami D., “Quantum isometry groups: examples and computations”, Comm. Math. Phys., 285 (2009), 421–444, arXiv: 0707.2648
5.	Bhowmick J., Goswami D., Skalski A., “Quantum isometry groups of 0-dimensional manifolds”, Trans. Amer. Math. Soc., 363 (2011), 901–921, arXiv: 0807.4288
6.	Bichon J., “Quantum automorphism groups of finite graphs”, Proc. Amer. Math. Soc., 131 (2003), 665–673, arXiv: math.QA/9902029
7.	Bichon J., De Rijdt A., Vaes S., “Ergodic coactions with large multiplicity and monoidal equivalence of quantum groups”, Comm. Math. Phys., 262 (2006), 703–728, arXiv: math.OA/0502018
8.	Connes A., Noncommutative geometry, Academic Press, Inc., San Diego, CA, 1994
9.	Das B., Goswami D., Joardar S., Rigidity of action of compact quantum groups on compact, connected manifolds, arXiv: 1309.1294
10.	Donin J., Shnider S., “Deformation of certain quadratic algebras and the corresponding quantum semigroups”, Israel J. Math., 104 (1998), 285–300
11.	Goswami D., “Twisted entire cyclic cohomology, {J}-{L}-{O} cocycles and equivariant spectral triples”, Rev. Math. Phys., 16 (2004), 583–602, arXiv: math-ph/0204010
12.	Goswami D., “Quantum group of isometries in classical and noncommutative geometry”, Comm. Math. Phys., 285 (2009), 141–160, arXiv: 0704.0041
13.	Kustermans J., “Locally compact quantum groups in the universal setting”, Internat. J. Math., 12 (2001), 289–338, arXiv: math.OA/9902015
14.	Kustermans J., Vaes S., “Locally compact quantum groups in the von {N}eumann algebraic setting”, Math. Scand., 92 (2003), 68–92, arXiv: math.OA/0005219
15.	Lance E. C., Hilbert {$C^*$}-modules. A toolkit for operator algebraists, London Mathematical Society Lecture Note Series, 210, Cambridge University Press, Cambridge, 1995
16.	Maes A., Van Daele A., “Notes on compact quantum groups”, Nieuw Arch. Wisk. (4), 16 (1998), 73–112, arXiv: math.FA/9803122
17.	Majid S., Foundations of quantum group theory, Cambridge University Press, Cambridge, 1995
18.	Neshveyev S., Tuset L., “The {D}irac operator on compact quantum groups”, J. Reine Angew. Math., 641 (2010), 1–20, arXiv: math.OA/0703161
19.	Neshveyev S., Tuset L., “Deformation of {$C^\ast$}-algebras by cocycles on locally compact quantum groups”, Adv. Math., 254 (2014), 454–496, arXiv: 1301.4897
20.	Podleś P., “Symmetries of quantum spaces. {S}ubgroups and quotient spaces of quantum {${\rm SU}(2)$} and {${\rm SO}(3)$} groups”, Comm. Math. Phys., 170 (1995), 1–20, arXiv: hep-th/9402069
21.	Rieffel M. A., van Daele A., “A bounded operator approach to {T}omita–{T}akesaki theory”, Pacific J. Math., 69 (1977), 187–221
22.	Sołtan P. M., “On actions of compact quantum groups”, Illinois J. Math., 55 (2011), 953–962, arXiv: 1003.5526
23.	Takesaki M., Theory of operator algebras, v. I, Springer-Verlag, New York–Heidelberg, 1979
24.	Vaes S., “The unitary implementation of a locally compact quantum group action”, J. Funct. Anal., 180 (2001), 426–480, arXiv: math/0005262
25.	Van Daele A., “Multiplier {H}opf algebras”, Trans. Amer. Math. Soc., 342 (1994), 917–932
26.	Wang S., “Deformations of compact quantum groups via {R}ieffel's quantization”, Comm. Math. Phys., 178 (1996), 747–764
27.	Wang S., “Quantum symmetry groups of finite spaces”, Comm. Math. Phys., 195 (1998), 195–211, arXiv: math.OA/9807091
28.	Woronowicz S. L., “Compact quantum groups”, Symétries Quantiques ({L}es {H}ouches, 1995), North-Holland, Amsterdam, 1998, 845–884