I was born 1950 in Kirov, Russia.
1965–1967, I was a student of Physical-Mathematical school No. 18
under MGU. 1967–1972, I was a student of Mechanical-Mathematical Department of MGU.
1972–1975, I was a graduate student of MIAN of Steklov under supervision by I.R. Shafarevich.
In 1977, I defended PhD thesis "Finite automorphism groups of Kahlerian K3 surfaces" (was published in 1979 in Proceed. of Moscow Math. Soc.). A general theory of such groups was constructed (especially of finite symplectic automorphism groups), and the classification of Abelian finite symplectic automorphism groups of K3 was given.
In 1979, in the paper "Integral symmetric bilinear forms and some of their geometric applications", I developed the discriminant forms technique for integral symmetric bilinear forms which became very useful in applicaitons. As geometric applications, 1) another approach to finite symplectic automorphism groups of K3 was given; 2) calculation of Milnor quadratic forms of 2-dimensional quasi-homogeneous singularities of functions was given in terms of their resolution, in application to 14 exceptional Arnolds singularities it gave an approach to Arnolds duality for them which was a first example of mirror symmetry; 3) a description of connected components of moduli of real polarized K3 surfaces was given. It is my the most cited paper (more than 100 citations by AMS Math Review).
In papers 1979–1984, I described K3 surfaces with finite automoprhism groups which is equivalent (by Global Torelli Theorem) to description of hyperbolic integral symmetric bilinear forms with automorphism groups generated by 2-reflections up to finite index. It was proved, in particular, that their number is finite in essential. For the rank 4 it was done by Vinberg.
In papers 1980–1981, I generalized above results to arbitrary arithmetic hyperbolic (in Lobachevsky spaces) reflection groups. Finiteness of the number of maximal such groups was proved in dimensions at least 10. Using the developed by me methods, later E.B. Vinberg, M.N. Prokhorov and A.G. Khovansky proved that the dimension of reflection groups in Lobachevsky spaces, with fundamental chambers of finite volume, is absolutely bounded.
In my further papers, the above methods were generalized and applied to different algebraic varieties and related polyhedra (e.g. to Mori polyhedra and nef polyhedra), to hyperbolic Kac–Moody algebras, different types of real algebraic varieties. I shall give more concrete results below.
In 1983–2008 papers, to different types of real algebraic varieties: to curves, surfaces, to description of connected components of moduli of K3 surfaces with different conditions on Picard lattices.
In 1984–2004 papers, to K3 and Enriques surfaces (automorphism groups), to Del Pezzo surfaces with log-terminal singularities, to algebraic surfaces with nef anti-canonical class, to algebraic surfaces with finite polyhedral Mori cone (finiteness results), to 3-dimensional Fano and Calabi–Yau manifolds (bounds on Picard number). Later, to some of these results, some other approaches were found which use Mori theory.
In 1995–2002 papers (most of them together with V.A. Gritsenko), to description and construction of Lorentzian (hyperbolic, generalized) Kac–Moody algebras with denominator identities which are automorphic forms (Borcherds algebras).
In 2003–2011 papers (many of them together with Carlo Madonna) methods of integral symmetric bilinear forms and discriminant forms were applied to description of cases when the moduli space of coherent sheaves with given Mukai vector on a K3 surface is isomorphic to the K3 surface itself which gives an algebraic cycle on the product of K3 with itself (or its self-correspondence).
In 2007–2011 papers, using results by Long, Maclachlan, Reid for 2-dimensional case and Agol for 3-dimensional case, and my old finiteness results and methods of 1981–1982 for arithmetic hyperbolic reflection groups in dimensions greater than 9, these finiteness results were generalized to remaining dimensions 2–8. Moreover, good bounds on ground fields were obtained which gives a hope for complete enumeration of maximal arithmetic hyperbolic refection groups.
In my last 2013 paper, the suggested by me method of 1979 to description of finite symplectic automorphism groups of K3 surfaces was generalized and specialized to concrete Niemeier lattices. This gives, in particular, description of finite symplectic automorphism groups of Kahlerian K3 surfaces together with their non-singular rational curves. This completes the classical results by Mukai, Xiao, Kondo, Hashimoto which were obtained after my 1979 paper.
Main publications:
V. Alexeev, V. V. Nikulin, Del Pezzo and $K3$ surfaces, MSJ Memoirs, 15, Mathematical Society of Japan, Tokyo, 2006 , xvi+149 pp.
V. A. Gritsenko, V. V. Nikulin, “Automorphic forms and Lorentzian Kac-Moody algebras. II”, Internat. J. Math., 9:2 (1998), 201–275
V. A. Gritsenko, V. V. Nikulin, “Automorphic forms and Lorentzian Kac-Moody algebras. I”, Internat. J. Math., 9:2 (1998), 153–199
V. V. Nikulin, “On the classification of arithmetic groups generated by reflections in Lobachevsky spaces”, Math. USSR-Izv., 18:1 (1982), 99–123
V. V. Nikulin, “Konechnye gruppy avtomorfizmov kelerovykh poverkhnostei tipa $K_3$”, Tr. MMO, 38, Izd-vo Mosk. un-ta, M., 1979, 75–137
V. V. Nikulin, “Integral symmetric bilinear forms and some of their applications”, Math. USSR-Izv., 14:1 (1980), 103–167
Viacheslav V. Nikulin, “Classification of Degenerations of Codimension ${\le }\,5$ and Their Picard Lattices for Kählerian K3 Surfaces with the Symplectic Automorphism Group $(C_2)^2$”, Proc. Steklov Inst. Math., 320 (2023), 172–225
2.
S. O. Gorchinskiy, Vik. S. Kulikov, V. V. Nikulin, D. O. Orlov, D. V. Osipov, V. L. Popov, N. A. Tyurin, G. B. Shabat, A. I. Shafarevich, V. V. Shokurov, “Igor Rostislavovich Shafarevich (on the centenary of his birthday)”, Russian Math. Surveys, 78:6 (2023), 1167–1178
2022
3.
F. A. Bogomolov, S. O. Gorchinskiy, A. B. Zheglov, V. V. Nikulin, D. O. Orlov, D. V. Osipov, A. N. Parshin, V. L. Popov, V. V. Przyjalkowski, Yu. G. Prokhorov, M. Reid, A. G. Sergeev, D. V. Treschev, A. K. Tsikh, I. A. Cheltsov, E. M. Chirka, “Viktor Stepanovich Kulikov (on his 70th birthday)”, Russian Math. Surveys, 77:3 (2022), 555–557
2021
4.
V. A. Alexeev, C. Birkar, F. A. Bogomolov, Yu. G. Zarhin, V. V. Nikulin, D. O. Orlov, A. N. Parshin, Yu. G. Prokhorov, M. Reid, A. S. Tikhomirov, I. A. Cheltsov, “Vyacheslav Vladimirovich Shokurov (on his 70th birthday)”, Russian Math. Surveys, 76:3 (2021), 553–556
V. V. Nikulin, “Classification of degenerations and Picard lattices of Kählerian K3 surfaces with symplectic automorphism group $D_6$”, Izv. Math., 83:6 (2019), 1201–1233
7.
Viacheslav V. Nikulin, “Classification of Degenerations and Picard Lattices of Kählerian K3 Surfaces with Symplectic Automorphism Group $C_4$”, Proc. Steklov Inst. Math., 307 (2019), 130–161
2018
8.
V. V. Nikulin, “Classification of Picard lattices of K3 surfaces”, Izv. Math., 82:4 (2018), 752–816
9.
Valery Gritsenko, Viacheslav V. Nikulin, “Lorentzian Kac–Moody algebras with Weyl groups of 2-reflections”, Proceedings of London Mathematical Society, 116:3 (2018), 485–533
Viacheslav V. Nikulin, Classification of degenerations and Picard lattices of Kahlerian K3 surfaces with small finite symplectic automorphism groups, 2018 , 39 pp., arXiv: 1804.00991
2017
11.
Valery Gritsenko, Viacheslav V. Nikulin, Examples of lattice-polarized K3 surfaces with automorphic discriminant, and Lorentzian Kac–Moody algebras, 2017 , 15 pp., arXiv: 1702.07551
12.
V. V. Nikulin, “Degenerations of Kählerian K3 surfaces with finite symplectic automorphism groups. III”, Izv. Math., 81:5 (2017), 985–1029
13.
Viacheslav V. Nikulin, Classification of Picard lattices of K3 surfaces, 2017 , 68 pp., arXiv: 1707.05677
14.
V. A. Gritsenko, V. V. Nikulin, “Examples of lattice-polarized K3 surfaces with automorphic discriminant, and Lorentzian Kac–Moody algebras”, Trans. Moscow Math. Soc., 78 (2017), 75–83
2016
15.
V. V. Nikulin, “Degenerations of Kählerian K3 surfaces with finite symplectic automorphism groups. II”, Izv. Math., 80:2 (2016), 359–402
16.
Valery Gritsenko, Viacheslav V. Nikulin, Lorentzian Kac–Moody algebras with Weyl groups of 2-reflection, 2016 , 73 pp., arXiv: 1602.08359
17.
Viacheslav V. Nikulin, “Kählerian K3 surfaces and Niemeier lattices, II”, Adv. Stud. Pure Math., 69, 2016, 421–471
2015
18.
V. V. Nikulin, Degenerations of Kahlerian K3 surfaces with finite symplectic automorphism groups, II, 2015 , 55 pp., arXiv: 1504.00326v4
19.
V. V. Nikulin, “Degenerations of Kählerian K3 surfaces with finite symplectic automorphism groups”, Izv. Math., 79:4 (2015), 740–794
20.
V. V. Nikulin, “Degenerations of Kahlerian K3 surfaces with finite symplectic automorphism groups.”, Conference on K3 surfaces and related topics (KIAS, Seoul, Korea, 16–20 November), 2015 , 1 pp. http://home.kias.re.kr/MKG/h/K3surfaces/
2014
21.
V. V. Nikulin, “Elliptic fibrations on K3 surfaces”, Proc. Edinb. Math. Soc. (2), 57:1 (2014), 253–267
V. V. Nikulin, Degenerations of Kahlerian K3 surfaces with finite symplectic automorphism groups, 2014 , 70 pp., arXiv: 1403.6061v3
23.
V. V. Nikulin, “Kahlerian K3 surfaces and Niemeier lattices”, Workshop: Automorphic forms, Lie algebras and String theory (Lille University II, March 3–6), Lille, France, 2014 , 28 pp. http://www.ihes.fr/~vanhove/Lille2014/index.html
24.
V. V. Nikulin, “Degenerations of Kahlerian K3 surfaces with finite symplectic automorphism groups”, Conference: Moduli spaces of real and complex varieties (Angers University, June 2–6), Angers, France, 2014 , 1 pp. http://www.math.univ-angers.fr/~mangolte/Angers-2014-abstracts.pdf
2013
25.
V. V. Nikulin, “Kählerian K3 surfaces and Niemeier lattices. I”, Izv. Math., 77:5 (2013), 954–997
26.
V. V. Nikulin, “Kahlerian K3 surfaces and Niemeier lattices”, The 6th MSJ-SI-Development of Moduli Theory, Conference dedicated to 60th birthday of Mukai (Kyoto, RIMS, 17–21 June 2013), Research Institute of Mathematical Sciences (RIMS), Kyoto University, Japan, 2013, 1
27.
V. V. Nikulin, “Kahlerian K3 surfaces and Niemeier lattices”, Project: Mock modular forms, Moonshine and String Theory, 2013 (New York State, USA, 25 September 2013), Simons Center for Geomery and Physics, Stony Brook University, 2013, 1–1
28.
F. A. Bogomolov, F. Kataneze, Yu. I. Manin, S. Yu. Nemirovskii, V. V. Nikulin, A. N. Parshin, V. V. Przhiyalkovskii, Yu. G. Prokhorov, M. Teikher, A. S. Tikhomirov, V. M. Kharlamov, I. A. Cheltsov, I. R. Shafarevich, V. V. Shokurov, “Viktor Stepanovich Kulikov (k shestidesyatiletiyu so dnya rozhdeniya)”, UMN, 68:2(410) (2013), 205–207
2011
29.
V. V. Nikulin, “The transition constant for arithmetic hyperbolic reflection groups”, Izv. Math., 75:5 (2011), 971–1005
30.
Viacheslav V. Nikulin, “Self-correspondences of K3 surfaces via moduli of sheaves and arithmetic hyperbolic reflection groups”, Proc. Steklov Inst. Math., 273 (2011), 229–237
2010
31.
F. A. Bogomolov, Yu. G. Zarhin, Vik. S. Kulikov, Yu. I. Manin, V. V. Nikulin, D. O. Orlov, A. N. Parshin, Yu. G. Prokhorov, M. Reid, I. A. Cheltsov, “Vyacheslav Vladimirovich Shokurov (on his 60th birthday)”, Russian Math. Surveys, 65:6 (2010), 1193–1198
2009
32.
V. V. Nikulin, “On ground fields of arithmetic hyperbolic reflection groups”, Groups and symmetries, CRM Proc. Lecture Notes, 47, Amer. Math. Soc., Providence, RI, 2009, 299–326
V. V. Nikulin, “Self-correspondences of $K3$ surfaces via moduli of sheaves”, Algebra, arithmetic, and geometry, in honor of Yu. I. Manin, Vol. II, Progr. Math., 270, Birkhäuser Boston Inc., Boston, MA, 2009, 439–464
35.
F. A. Bogomolov, Vik. S. Kulikov, Yu. I. Manin, V. V. Nikulin, D. O. Orlov, A. N. Parshin, Yu. G. Prokhorov, A. V. Pukhlikov, M. Reid, I. R. Shafarevich, V. V. Shokurov, “Vasilii Alekseevich Iskovskikh (obituary)”, Russian Math. Surveys, 64:5 (2009), 939–946
2008
36.
V. V. Nikulin, Self-correspondences of K3 surfaces via moduli of sheaves and arithmetic hyperbolic reflection groups, 2008 , arXiv: 0810.2945
37.
V. V. Nikulin, “On Ground Fields of Arithmetic Hyperbolic Reflection Groups. II”, Mosc. Math. J., 8:4 (2008), 789–812
V. V. Nikulin, “On correspondences of a $K3$ surface with itself. II”, Algebraic geometry, Contemp. Math., 422, Amer. Math. Soc., Providence, RI, 2007, 121–172
V. V. Nikulin, “On algebraic varieties with finite polyhedral Mori cone”, The Fano Conference, Univ. Torino, Turin, 2004, 573–589
46.
C. Madonna, V. V. Nikulin, “On a classical correspondence between $K3$ surfaces. II”, Strings and geometry, Clay Math. Proc., 3, Amer. Math. Soc., Providence, RI, 2004, 285–300
47.
V. V. Nikulin, “On Correspondences of a K3 Surface with Itself. I”, Proc. Steklov Inst. Math., 246 (2004), 204–226
2003
48.
C. G. Madonna, V. V. Nikulin, “On a Classical Correspondence between K3 Surfaces”, Proc. Steklov Inst. Math., 241 (2003), 120–153
49.
F. A. Bogomolov, A. L. Gorodentsev, V. A. Iskovskikh, Yu. I. Manin, V. V. Nikulin, D. O. Orlov, A. N. Parshin, V. Ya. Pidstrigach, A. S. Tikhomirov, N. A. Tyurin, I. R. Shafarevich, “Andrei Nikolaevich Tyurin (obituary)”, Russian Math. Surveys, 58:3 (2003), 597–605
2002
50.
V. A. Gritsenko, V. V. Nikulin, “On classification of Lorentzian Kac–Moody algebras”, Russian Math. Surveys, 57:5 (2002), 921–979
1996
51.
V. V. Nikulin, “A remark on discriminants of moduli of $K3$ surfaces as sets of zeros of automorphic forms”, J. Math. Sci., 81:3 (1996), 2738–2743
2000
52.
V. V. Nikulin, “A remark on algebraic surfaces with polyhedral Mori cone”, Nagoya Math. J., 157 (2000), 73–92
V. V. Nikulin, “A theory of Lorentzian Kac–Moody algebras”, J. Math. Sci. (New York), 106:4 (2001), 3212–3221
1999
57.
A. I. Kostrikin, V. S. Kulikov, Yu. I. Manin, V. V. Nikulin, A. N. Parshin, Yu. G. Prokhorov, A. V. Pukhlikov, M. Reid, A. N. Tyurin, I. R. Shafarevich, V. V. Shokurov, “Vasilii Alekseevich Iskovskikh (on his 60th birthday)”, Russian Math. Surveys, 54:4 (1999), 863–868
1998
58.
V. A. Gritsenko, V. V. Nikulin, “Automorphic forms and Lorentzian Kac-Moody algebras. II”, Internat. J. Math., 9:2 (1998), 201–275
V. V. Nikulin, “The diagram method for 3-folds and its application to the Kähler cone and Picard number of Calabi-Yau 3-folds. I”, Higher-dimensional complex varieties (Trento, 1994), de Gruyter, Berlin, 1996, 261–328
62.
V. A. Gritsenko, V. V. Nikulin, “$K3$ surfaces, Lorentzian Kac-Moody algebras and mirror symmetry”, Math. Res. Lett., 3:2 (1996), 211–229
V. V. Nikulin, “On the topological classification of real Enriques surfaces. I”, Topology of real algebraic varieties and related topics, Amer. Math. Soc. Transl. Ser. 2, 173, Amer. Math. Soc., Providence, RI, 1996, 187–201
64.
V. V. Nikulin, “Basis of the diagram method for generalized reflection groups in Lobachevsky spaces and algebraic surfaces with nef anticanonical class”, Internat. J. Math., 7:1 (1996), 71–108
V. A. Gritsenko, V. V. Nikulin, “Igusa modular forms and 'the simplest' Lorentzian Kac–Moody algebras”, Sb. Math., 187:11 (1996), 1601–1641
66.
V. V. Nikulin, “Reflection groups in Lobachevskii spaces and the denominator identity for Lorentzian Kac–Moody algebras”, Izv. Math., 60:2 (1996), 305–334
1995
67.
V. A. Gritsenko, V. V. Nikulin, “Automorphic correction of a Lorentzian Kac-Moody algebra”, C. R. Acad. Sci. Paris Sér. I Math., 321:9 (1995), 1151–1156
1994
68.
V. V. Nikulin, “On the Picard number of Fano 3-folds with terminal singularities”, J. Math. Kyoto Univ., 34:3 (1994), 495–529
V. V. Nikulin, “On the Brauer group of real algebraic surfaces”, Algebraic geometry and its applications (Yaroslavl', 1992), Aspects Math., E25, Vieweg, Braunschweig, 1994, 113–136
V. V. Nikulin, “Weil linear systems on singular $K3$ surfaces”, Algebraic geometry and analytic geometry (1990, Tokyo), ICM-90 Satell. Conf. Proc., Springer, Tokyo, 1991, 138–164
V. V. Nikulin, “On rational maps between $K3$ surfaces”, Constantin Carathéodory: an international tribute, v. II, World Sci. Publ., Teaneck, NJ, 1991, 964–995
V. V. Nikulin, “Algebraic three-folds and the diagram method”, Math. USSR-Izv., 37:1 (1991), 157–189
1989
74.
V. A. Alekseev, V. V. Nikulin, “Classification of del Pezzo surfaces with log-terminal singularities of index $\le 2$, and involutions on K3 surfaces”, Soviet Math. Dokl., 39:3 (1989), 507–511
1990
75.
V. V. Nikulin, “Del Pezzo surfaces with log-terminal singularities. III”, Math. USSR-Izv., 35:3 (1990), 657–675
76.
V. V. Nikulin, “Del Pezzo surfaces with log-terminal singularities”, Math. USSR-Sb., 66:1 (1990), 231–248
1989
77.
V. I. Arnol'd, O. Ya. Viro, E. A. Leontovich-Andronova, V. V. Nikulin, S. P. Novikov, O. A. Oleinik, G. M. Polotovsky, V. M. Kharlamov, “Dmitrii Andreevich Gudkov (on his seventieth birthday)”, Russian Math. Surveys, 44:1 (1989), 271–273
1988
78.
V. A. Alekseev, V. V. Nikulin, “Classification of del Pezzo surfaces with log-terminal singularities of index $\le 2$, involutions on $K3$ surfaces, and reflection groups in Lobachevskiĭ spaces”, Lectures in mathematics and its applications, 2, no. 2, Ross. Akad. Nauk, Inst. Mat. im. Steklova, Moscow; Tul'sk. Politekhn. Inst., Tula, 1988, 51–150
1989
79.
V. V. Nikulin, “Del Pezzo surfaces with log-terminal singularities. II”, Math. USSR-Izv., 33:2 (1989), 355–372
1987
80.
V. V. Nikulin, “Discrete reflection groups in Lobachevsky spaces and algebraic surfaces”, Proceedings of the International Congress of Mathematicians (Berkeley, Calif., 1986), v. 1, 2, Amer. Math. Soc., Providence, RI, 1987, 654–671
81.
V. V. Nikulin, I. R. Shafarevich, Geometries and groups, Springer Series in Soviet Mathematics, Springer-Verlag, Berlin, 1987 , viii+251 pp.
1988
82.
V. V. Nikulin, “On correspondences between K3 surfaces”, Math. USSR-Izv., 30:2 (1988), 375–383
1987
83.
V. V. Nikulin, “Local invariants of 4-dimensional pseudo-Riemannian manifolds with a Lorentz metric”, J. Soviet Math., 37:4 (1987), 1210–1238
1986
84.
V. V. Nikulin, “Filtrations of 2-elementary forms and involutions of integral symmetric and skew-symmetric bilinear forms”, Math. USSR-Izv., 27:1 (1986), 159–182
1984
85.
V. V. Nikulin, “On a description of the automorphism groups of Enriques surfaces”, Sov. Math. Dokl., 30 (1984), 282–285
86.
V. V. Nikulin, “$K3$ surfaces with a finite group of automorphisms and a Picard group of rank three”, Algebraic geometry and its applications, Collection of articles, Trudy Mat. Inst. Steklov., 165, 1984, 119–142
1983
87.
V. V. Nikulin, I. R. Shafarevich, Geometrii i gruppy, Nauka, M., 1983 , 240 pp.
1984
88.
V. V. Nikulin, “Involutions of integral quadratic forms and their applications to real algebraic geometry”, Math. USSR-Izv., 22:1 (1984), 99–172
1983
89.
V. V. Nikulin, “Quotient-groups of groups of automorphisms of hyperbolic forms by subgroups generated by 2-reflections. Algebro-geometric applications”, J. Soviet Math., 22:4 (1983), 1401–1475
1982
90.
V. V. Nikulin, “On the classification of arithmetic groups generated by reflections in Lobachevsky spaces”, Math. USSR-Izv., 18:1 (1982), 99–123
1981
91.
V. V. Nikulin, “On arithmetic groups generated by reflections in Lobachevskii spaces”, Math. USSR-Izv., 16:3 (1981), 573–601
1979
92.
V. V. Nikulin, “Konechnye gruppy avtomorfizmov kelerovykh poverkhnostei tipa $K_3$”, Tr. MMO, 38, Izd-vo Mosk. un-ta, M., 1979, 75–137
V. V. Nikulin, “On factor groups of the automorphism groups of hyperbolic forms modulo subgroups generated by 2-reflections”, Sov. Math. Dokl., 20 (1979), 1156–1158
1980
94.
V. V. Nikulin, “Integral symmetric bilinear forms and some of their applications”, Math. USSR-Izv., 14:1 (1980), 103–167
1976
95.
V. V. Nikulin, “Finite groups of automorphisms of Kählerian surfaces of type K3”, Uspekhi Mat. Nauk, 31:2(188) (1976), 223–224
1975
96.
V. V. Nikulin, “On Kummer surfaces”, Math. USSR-Izv., 9:2 (1975), 261–275
1974
97.
V. V. Nikulin, “An analogue of the Torelli theorem for Kummer surfaces of Jacobians”, Math. USSR-Izv., 8:1 (1974), 21–41
Classification of Picard lattices of $K3$ surfaces V. V. Nikulin "Algebra, algebraic geometry, and number theory". Memorial conference for academician Igor Rostislavovich Shafarevich June 5, 2017 15:50
V. V. Nikulin, On the classification of hyperbolic root systems of rank three, Trudy Mat. Inst. Steklova, 230, ed. I. R. Shafarevich, E. F. Mishchenko, 2000, 256 с. http://mi.mathnet.ru/book243