Peterson J, Thom A. Group cocycles and the ring of affiliated operators[J]. Inventiones Mathematicae, 2007, 185(3): 561-592.
2
Scott G P. The space of homeomorphisms of a 2-manifold[J]. Topology, 1970, 9(1): 97-109.
3
Taheri A. Local minimizers and quasiconvexity - the impact of topology[J]. Archive for Rational Mechanics and Analysis, 2005, 176(3): 363-414.
4
Baumslag G. Some theorems on the free groups of certain product varieties[J]. Journal of Combinatorial Theory, 1967, 2(1): 77-99.
5
Guo K, Huang H. Multiplication operators defined by covering maps on the Bergman space: The connection between operator theory and von Neumann algebras[J]. Journal of Functional Analysis, 2011, 260(4): 1219-1255.
6
Sykiotis M. On subgroups of finite complexity in groups acting on trees[J]. Journal of Pure and Applied Algebra, 2005, 200(1): 1-23.
7
Griffiths H B. Some elementary topology of 3-dimensional handlebodies†[J]. Communications on Pure and Applied Mathematics, 1964, 17(3): 317-334.
8
Moon M. On Certain Finitely Generated Subgroups of Groups Which Split[J]. Canadian Mathematical Bulletin, 2003, 46(1): 122-129.
9
Hansong H. von Neumann algebras generated by multiplication operators on the weighted Bergman space: a function-theory view into operator theory[J]. Science China-mathematics, 2012, 56(4): 811-822.
10
Griffiths H B. A covering-space approach to theorems of greenberg in fuchsian, kleinian and other groups†[J]. Communications on Pure and Applied Mathematics, 1967, 20(2): 365-399.
Bannai E, Dougherty S T, Harada M, et al. Type II codes, even unimodular lattices, and invariant rings[J]. IEEE Transactions on Information Theory, 1999, 45(4): 1194-1205.
2
Jaehyun Yang. Invariant metrics and Laplacians on Siegel-Jacobi space. 2005.
3
Eiichi Bannai · M Harada · Tomoyoshi Ibukiyama · Akihiro Munemasa · Manabu Oura. Type II codes over F2 + 11F2 and applications to Hermitian modular forms. 2003.
4
Bannai E, Bannai E, Ozeki M, et al. On the Ring of Simultaneous Invariants for the Gleason-MacWilliams Group[J]. European Journal of Combinatorics, 1999, 20(7): 619-627.
5
Bernhard Runge. On Symmetric Hilbert Modular Forms. 1996.
6
Yang J, Yong Y, Huh S, et al. SECTIONAL SURVATURES OF THE SIEGEL-JACOBI SPACE[J]. Bulletin of The Korean Mathematical Society, 2013, 50(3): 787-799.
7
Bruinier J H, Westerholtraum M. Kudla\u0027s modularity conjecture and formal Fourier-Jacobi series[C]., 2014.
8
Tsushima · Koji. ON A DECOMPOSITION OF BRUHAT TYPE FOR A CERTAIN FINITE GROUP. 2003.
9
Francesco L Chiera. Type II Codes over , Invariant Rings and Theta Series. 2005.
10
Francesco L Chiera. Type II Codes over$$\mathbb{Z}/2k\mathbb{Z}$$, Invariant Rings and Theta Series. 2005.
Koskela P, Onninen J. Mappings of finite distortion: decay of the Jacobian in the plane[J]. Advances in Calculus of Variations, 2008, 1(3): 309-321.
2
Elliott P D. Products of Shifted Primes. Multiplicative Analogues of Goldbach’s Problems, II[J]. Acta Arithmetica, 1998, 88(1): 201-217.
3
Giorgio Patrizio · Andrea Spiro. Monge-Ampère equations and moduli spaces of manifolds of circular type. 2010.
4
Elliott P D. Monotone additive functions on shifted primes[J]. Ramanujan Journal, 2007, 15(1): 87-102.
5
N M Timofeev · M B Khripunova. The Concentration Function of Additive Functions with Nonmultiplicative Weight. 2004.
6
Simon G W Wong. Concentration function of additive functions on shifted twin primes. 1998.
7
P D T A Elliott. Jonas Kubilius and Probabilistic Number Theory Some Personal Reflections. 2015.
8
N M Timofeevf · M B Khripunova. The Concentration Function of Additive Functions with Special Weight. 2004.
9
Николай Михайлович Тимофеев · N M Timofeev · Марина Борисовна Хрипунова · M B Khripunova. О функции концентрации аддитивной функции с немультипликативным весом@@@The Concentration Function of Additive Functions with Nonmultiplicat…. 2004.
10
Николай Михайлович Тимофеев · N M Timofeev · Марина Борисовна Хрипунова · M B Khripunova. О функции концентрации для аддитивных функций со специальным весом@@@The Concentration Function of Additive Functions with Special Weight. 2004.