|
Most published authors (scientific articles only) of the journal
scientific articles published in peer review journal, serial, conference publications, indexed in international bibliographical databases and/or having DOI index
|
1. |
A. N. Varchenko |
10 |
2. |
A. G. Khovanskii |
10 |
3. |
Yu. S. Ilyashenko |
9 |
4. |
A. M. Vershik |
7 |
5. |
S. M. Natanzon |
7 |
6. |
Ch. Rousseau |
7 |
7. |
A. N. Rybko |
7 |
8. |
S. L. Tabachnikov |
7 |
9. |
P. I. Etingof |
7 |
10. |
A. A. Glutsyuk |
6 |
11. |
S. M. Gusein-Zade |
6 |
12. |
R. A. Minlos |
6 |
13. |
S. A. Pirogov |
6 |
14. |
V. V. Schechtman |
6 |
15. |
S. B. Shlosman |
6 |
16. |
V. I. Arnol'd |
5 |
17. |
R. V. Bezrukavnikov |
5 |
18. |
C. Boldrighini |
5 |
19. |
A. Yu. Buryak |
5 |
20. |
V. M. Buchstaber |
5 |
21. |
V. A. Vassiliev |
5 |
22. |
D. Kaledin |
5 |
23. |
V. A. Kleptsyn |
5 |
24. |
G. Lusztig |
5 |
25. |
N. S. Nadirashvili |
5 |
26. |
D. I. Novikov |
5 |
27. |
L. Ortiz-Bobadil'ya |
5 |
28. |
A. Pellegrinotti |
5 |
29. |
O. V. Pochinka |
5 |
30. |
J. C. Rebelo |
5 |
31. |
V. V. Serganova |
5 |
32. |
D. B. Fuchs |
5 |
33. |
K. M. Khanin |
5 |
34. |
M. Yampolsky |
5 |
|
Most cited authors of the journal |
1. |
M. Van den Bergh |
347 |
2. |
A. I. Bondal |
342 |
3. |
A. B. Givental' |
324 |
4. |
P. I. Etingof |
319 |
5. |
V. V. Ostrik |
277 |
6. |
R. V. Bezrukavnikov |
228 |
7. |
A. D. Vainshtein |
172 |
8. |
M. Z. Shapiro |
171 |
9. |
P. Deligne |
168 |
10. |
M. Gekhtman |
165 |
11. |
A. V. Zelevinskii |
139 |
12. |
A. Yu. Okounkov |
137 |
13. |
B. A. Dubrovin |
127 |
14. |
D. Kaledin |
118 |
15. |
R. Rouquier |
118 |
16. |
A. A. Beilinson |
110 |
17. |
V. M. Buchstaber |
110 |
18. |
A. M. Vershik |
109 |
19. |
G. Carlet |
106 |
20. |
Y. Zhang |
106 |
|
40 most cited authors of the journal |
|
Most cited articles of the journal |
1. |
Generators and representability of functors in commutative and noncommutative geometry A. I. Bondal, M. Van den Bergh Mosc. Math. J., 2003, 3:1, 1–36 |
342 |
2. |
Gromov–Witten invariants and quantization of quadratic Hamiltonians A. B. Givental' Mosc. Math. J., 2001, 1:4, 551–568 |
265 |
3. |
Finite tensor categories P. Etingof, V. V. Ostrik Mosc. Math. J., 2004, 4:3, 627–654 |
219 |
4. |
Cluster algebras and Poisson geometry M. Gekhtman, M. Z. Shapiro, A. D. Vainshtein Mosc. Math. J., 2003, 3:3, 899–934 |
154 |
5. |
Catégories tensorielles P. Deligne Mosc. Math. J., 2002, 2:2, 227–248 |
143 |
6. |
$q$-Schur algebras and complex reflection groups R. Rouquier Mosc. Math. J., 2008, 8:1, 119–158 |
118 |
7. |
The extended Toda hierarchy G. Carlet, B. A. Dubrovin, Y. Zhang Mosc. Math. J., 2004, 4:2, 313–332 |
106 |
8. |
Positivity and canonical bases in rank 2 cluster algebras of finite and affine types P. Sherman, A. V. Zelevinskii Mosc. Math. J., 2004, 4:4, 947–974 |
86 |
9. |
Varieties over field with one element Ch. Soulé Mosc. Math. J., 2004, 4:1, 217–244 |
83 |
10. |
MacWilliams duality and the Rosenbloom–Tsfasman metric S. T. Dougherty, M. M. Skriganov Mosc. Math. J., 2002, 2:1, 81–97 |
79 |
11. |
Highest weight categories arising from Khovanov's diagram algebra I: cellularity Jonathan Brundan, Catharina Stroppel Mosc. Math. J., 2011, 11:4, 685–722 |
78 |
12. |
Motivic measures and stable birational geometry M. Larsen, V. A. Lunts Mosc. Math. J., 2003, 3:1, 85–95 |
75 |
13. |
Fedosov quantization in algebraic context R. V. Bezrukavnikov, D. Kaledin Mosc. Math. J., 2004, 4:3, 559–592 |
72 |
14. |
Legendrian dualities and spacelike hypersurfaces in the lightcone Shyuichi Izumiya Mosc. Math. J., 2009, 9:2, 325–357 |
67 |
15. |
Metric Diophantine Approximation: The Khintchine–Groshev Theorem for Nondegenerate Manifolds V. V. Beresnevich, V. I. Bernik, D. Ya. Kleinbock, G. A. Margulis Mosc. Math. J., 2002, 2:2, 203–225 |
66 |
16. |
The Jacobian conjecture is stably equivalent to the Dixmier conjecture A. Ya. Kanel-Belov, M. L. Kontsevich Mosc. Math. J., 2007, 7:2, 209–218 |
65 |
17. |
Remarks on generators and dimensions of triangulated categories Dmitri Orlov Mosc. Math. J., 2009, 9:1, 143–149 |
63 |
18. |
Rankin-Cohen brackets and the Hopf algebra of transverse geometry A. Connes, H. Moscovici Mosc. Math. J., 2004, 4:1, 111–130 |
61 |
19. |
Étale cohomology, Lefschetz theorems and number of points of singular varieties over finite fields S. R. Ghorpade, G. Lachaud Mosc. Math. J., 2002, 2:3, 589–631 |
61 |
20. |
Variational principles for Lie–Poisson and Hamilton–Poincaré equations H. Sendra, J. E. Marsden, S. Pekarskii, T. S. Ratiu Mosc. Math. J., 2003, 3:3, 833–867 |
60 |
|
40 most cited articles of the journal |
|
Most requested articles of the journal |
|
|
1. |
The Gelfand transform in commutative algebra V. M. Buchstaber, A. Yu. Lazarev Mosc. Math. J., 2005, 5:2, 311–327 | 11 |
2. |
A generalization of the Fejér–Jackson inequality and related results Horst Alzer, Man Kam Kwong Mosc. Math. J., 2020, 20:3, 441–451 | 11 |
3. |
Spaces of polytopes and cobordism of quasitoric manifolds V. M. Buchstaber, T. E. Panov, N. Ray Mosc. Math. J., 2007, 7:2, 219–242 | 10 |
4. |
On $M$-functions associated with modular forms Philippe Lebacque, Alexey Zykin Mosc. Math. J., 2018, 18:3, 437–472 | 10 |
5. |
$n$-valued groups: theory and applications V. M. Buchstaber Mosc. Math. J., 2006, 6:1, 57–84 | 9 |
6. |
Adelic approach to the zeta function of arithmetic schemes in dimension two I. B. Fesenko Mosc. Math. J., 2008, 8:2, 273–317 | 9 |
7. |
Standard models of degree $1$ del Pezzo fibrations Konstantin Loginov Mosc. Math. J., 2018, 18:4, 721–737 | 9 |
8. |
Toric topology of the complex Grassmann manifolds V. M. Bukhshtaber, S. Terzić Mosc. Math. J., 2019, 19:3, 397–463 | 9 |
9. |
Electrical networks, Lagrangian Grassmannians, and symplectic groups B. Bychkov, V. Gorbounov, A. Kazakov, D. Talalaev Mosc. Math. J., 2023, 23:2, 133–167 | 9 |
10. |
Geometric adeles and the Riemann–Roch theorem for $1$-cycles on surfaces Ivan Fesenko Mosc. Math. J., 2015, 15:3, 435–453 | 8 |
|
Total publications: |
846 |
Scientific articles: |
788 |
Authors: |
1013 |
Citations: |
9507 |
Cited articles: |
664 |
|
Impact Factor Web of Science |
|
for 2023:
0.600 |
|
for 2022:
0.800 |
|
for 2021:
0.833 |
|
for 2020:
0.797 |
|
for 2019:
0.544 |
|
for 2018:
0.746 |
|
for 2017:
0.704 |
|
for 2016:
1.041 |
|
for 2015:
0.648 |
|
for 2014:
0.708 |
|
for 2013:
0.347 |
|
for 2012:
0.682 |
|
for 2011:
0.470 |
|
for 2010:
0.721 |
|
for 2009:
0.712 |
|
Scopus Metrics |
|
2023 |
CiteScore |
1.400 |
|
2023 |
SNIP |
1.187 |
|
2023 |
SJR |
0.916 |
|
2022 |
SJR |
0.569 |
|
2021 |
SJR |
0.440 |
|
2020 |
SJR |
0.702 |
|
2019 |
SJR |
0.876 |
|
2018 |
CiteScore |
0.760 |
|
2018 |
SJR |
0.717 |
|
2017 |
CiteScore |
0.900 |
|
2017 |
SNIP |
1.216 |
|
2017 |
SJR |
0.833 |
|
2016 |
CiteScore |
0.770 |
|
2016 |
SNIP |
1.225 |
|
2016 |
SJR |
1.014 |
|
2015 |
CiteScore |
0.610 |
|
2015 |
SNIP |
1.038 |
|
2015 |
IPP |
0.531 |
|
2015 |
SJR |
0.829 |
|
2014 |
CiteScore |
0.650 |
|
2014 |
SNIP |
1.323 |
|
2014 |
IPP |
0.667 |
|
2014 |
SJR |
1.311 |
|
2013 |
SNIP |
1.079 |
|
2013 |
IPP |
0.454 |
|
2013 |
SJR |
0.734 |
|
2012 |
SNIP |
1.109 |
|
2012 |
IPP |
0.554 |
|
2012 |
SJR |
0.745 |
|