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2-years impact-factor Math-Net.Ru of «Symmetry, Integrability and Geometry: Methods and Applications» journal, 2010
2-years impact-factor Math-Net.Ru of the journal in 2010 is calculated
as the number of citations in 2010 to the scientific papers published during
2008–2009.
The table below contains the list of citations in 2010 to the papers
published in 2008–2009. We take into account all citing publications
we found from different sources, mostly from references lists available
on Math-Net.Ru. Both original and translation versions are taken into account.
The impact factor Math-Net.Ru may change when new citations to a year
given are found.
Year |
2-years impact-factor Math-Net.Ru |
Scientific papers |
Citations |
Citated papers |
Journal Self-citations |
2010 |
0.916 |
202 |
185 |
101 |
5.9% |
|
|
N |
Citing pulication |
|
Cited paper |
|
1. |
Hrivnák J., Patera J., “On $E$-discretization of tori of compact simple Lie groups”, J. Phys. A, 43:16 (2010), 165206, 16 pp. |
→ |
$E$-Orbit Functions Anatoliy U. Klimyk, Jiri Patera SIGMA, 4 (2008), 002, 57 pp.
|
2. |
Hrivnák J., Patera J., “Two-dimensional symmetric and antisymmetric generalizations of exponential and cosine functions”, J. Math. Phys., 51:2 (2010), 023515, 24 pp. |
→ |
$E$-Orbit Functions Anatoliy U. Klimyk, Jiri Patera SIGMA, 4 (2008), 002, 57 pp.
|
3. |
Hrivnak J., Patera J., “E-Discretization of Tori of Exceptional Compact Simple Lie Groups”, XXIX Workshop on Geometric Methods in Physics, AIP Conference Proceedings, 1307, 2010, 89–94 |
→ |
$E$-Orbit Functions Anatoliy U. Klimyk, Jiri Patera SIGMA, 4 (2008), 002, 57 pp.
|
|
4. |
Xavier Bekaert, Maxim Grigoriev, “Manifestly Conformal Descriptions and Higher Symmetries of Bosonic Singletons”, SIGMA, 6 (2010), 038, 18 pp. |
→ |
Generalized Symmetries of Massless Free Fields on Minkowski Space Juha Pohjanpelto, Stephen C. Anco SIGMA, 4 (2008), 004, 17 pp.
|
|
5. |
Léandre R., “A Lie algebroid on the Wiener space”, Adv. in Math. Phys., 2010 (2010), 146719, 17 pp. |
→ |
Poisson Manifolds, Lie Algebroids, Modular Classes: a Survey Yvette Kosmann-Schwarzbach SIGMA, 4 (2008), 005, 30 pp.
|
|
6. |
Grigoriev Y.N., Ibragimov N.H., Kovalev V.F., Meleshko S.V., “Introduction to group analysis and invariant solutions of integro-differential equations”, Symmetries of Integro-Differential Equations, Lecture Notes in Physics, 806, 2010, 57–111 |
→ |
Symmetry Extensions and Their Physical Reasons in the Kinetic and Hydrodynamic Plasma Models Volodymyr B. Taranov SIGMA, 4 (2008), 006, 7 pp.
|
|
7. |
Marquette I., “Superintegrability and higher order polynomial algebras”, J. Phys. A, 43:13 (2010), 135203, 15 pp. |
→ |
Models for Quadratic Algebras Associated with Second Order Superintegrable Systems in 2D E. G. Kalnins, Willard Miller. Jr., Sarah Post SIGMA, 4 (2008), 008, 21 pp.
|
8. |
Ernest G. Kalnins, Jonathan M. Kress, Willard Miller Jr., “Tools for Verifying Classical and Quantum Superintegrability”, SIGMA, 6 (2010), 066, 23 pp. |
→ |
Models for Quadratic Algebras Associated with Second Order Superintegrable Systems in 2D E. G. Kalnins, Willard Miller. Jr., Sarah Post SIGMA, 4 (2008), 008, 21 pp.
|
9. |
Kalnins E.G., Miller W. Jr., Post S., “Models for the 3D singular isotropic oscillator quadratic algebra”, Phys. Atomic Nuclei, 73:2 (2010), 359–366 |
→ |
Models for Quadratic Algebras Associated with Second Order Superintegrable Systems in 2D E. G. Kalnins, Willard Miller. Jr., Sarah Post SIGMA, 4 (2008), 008, 21 pp.
|
10. |
Tremblay F., Winternitz P., “Third-order superintegrable systems separating in polar coordinates”, J. Phys. A, 43:17 (2010), 175206, 17 pp. |
→ |
Models for Quadratic Algebras Associated with Second Order Superintegrable Systems in 2D E. G. Kalnins, Willard Miller. Jr., Sarah Post SIGMA, 4 (2008), 008, 21 pp.
|
|
11. |
Babin A., Figotin A., “Some mathematical problems in a neoclassical theory of electric charges”, Discrete Contin. Dyn. Syst., 27:4 (2010), 1283–1326 |
→ |
Global Attraction to Solitary Waves in Models Based on the Klein–Gordon Equation Alexander I. Komech, Andrew A. Komech SIGMA, 4 (2008), 010, 23 pp.
|
|
12. |
Das C.R., Laperashvili L.V., Tureanu A., “Cosmological constant in a model with superstring-inspired $E_6$ unification and shadow $\theta$-particles”, European Phys. J. C, 66:1-2 (2010), 307–324 |
→ |
Preon Model and Family Replicated $E_6$ Unification Chitta Ranjan Das, Larisa V. Laperashvili SIGMA, 4 (2008), 012, 15 pp.
|
|
13. |
Gershun V.D., Cirilo-Lombardo D.J., “Higher spin particles in the discrete string model approach”, J. Phys. A, 43:30 (2010), 305401, 12 pp. |
→ |
Towards Unifying Structures in Higher Spin Gauge Symmetry Anders K. H. Bengtsson SIGMA, 4 (2008), 013, 23 pp.
|
|
14. |
Nomura K., Terwilliger P., “On the shape of a tridiagonal pair”, Linear Algebra Appl., 432:2-3 (2010), 615–636 |
→ |
Quasi-Linear Algebras and Integrability (the Heisenberg Picture) Luc Vinet, Alexei Zhedanov SIGMA, 4 (2008), 015, 22 pp.
|
15. |
Odake S., Sasaki R., “Unified theory of exactly and quasiexactly solvable “discrete” quantum mechanics. I. Formalism”, J. Math. Phys., 51:8 (2010), 083502, 24 pp. |
→ |
Quasi-Linear Algebras and Integrability (the Heisenberg Picture) Luc Vinet, Alexei Zhedanov SIGMA, 4 (2008), 015, 22 pp.
|
|
16. |
Hasebe K., “Supersymmetric quantum hall liquid with a deformed supersymmetry”, Phys. Atomic Nuclei, 73:2 (2010), 345–351 |
→ |
SUSY Quantum Hall Effect on Non-Anti-Commutative Geometry Kazuki Hasebe SIGMA, 4 (2008), 023, 21 pp.
|
|
17. |
Mizher A.J., Chernodub M.N., Fraga E.S., “Phase diagram of hot QCD in an external magnetic field: Possible splitting of deconfinement and chiral transitions”, Phys. Rev. D, 82:10 (2010), 105016, 16 pp. |
→ |
Effects of Quark Interactions on Dynamical Chiral Symmetry Breaking by a Magnetic Field Brigitte Hiller, Alexander A. Osipov, Alex H. Blin, João da Providência SIGMA, 4 (2008), 024, 14 pp.
|
18. |
Sakai Yu., Sasaki T., Kouno H., Yahiro M., “Entanglement between deconfinement transition and chiral symmetry restoration”, Phys. Rev. D, 82:7 (2010), 076003, 10 pp. |
→ |
Effects of Quark Interactions on Dynamical Chiral Symmetry Breaking by a Magnetic Field Brigitte Hiller, Alexander A. Osipov, Alex H. Blin, João da Providência SIGMA, 4 (2008), 024, 14 pp.
|
19. |
Moreira J., Hiller B., Osipov A.A., Blin A.H., “The phase diagram in the SU(3) Nambu-Jona-Lasinio model with 't Hooft and eight-quark interactions”, Hadron 2009, Proceedings of the XIII International Conference on Hadron Spectroscopy, AIP Conference Proceedings, 1257, 2010, 676–680 |
→ |
Effects of Quark Interactions on Dynamical Chiral Symmetry Breaking by a Magnetic Field Brigitte Hiller, Alexander A. Osipov, Alex H. Blin, João da Providência SIGMA, 4 (2008), 024, 14 pp.
|
|
20. |
Martin C.P., “Yukawa terms in noncommutative SO(10) and E$_6$ GUTs”, Phys Rev D, 82:8 (2010), 085020, 7 pp. |
→ |
Unified Gauge Theories and Reduction of Couplings: from Finiteness to Fuzzy Extra Dimensions Myriam Mondragón, George Zoupanos SIGMA, 4 (2008), 026, 26 pp.
|
|
|
Total publications: |
2086 |
Scientific articles: |
2081 |
Authors: |
2768 |
Citations: |
14020 |
Cited articles: |
1647 |
|
Impact Factor Web of Science |
|
for 2023:
0.900 |
|
for 2021:
0.817 |
|
for 2020:
1.072 |
|
for 2019:
0.733 |
|
for 2018:
1.088 |
|
for 2017:
1.100 |
|
for 2016:
0.765 |
|
for 2015:
1.040 |
|
for 2014:
1.245 |
|
for 2013:
1.299 |
|
for 2012:
1.243 |
|
for 2011:
1.071 |
|
for 2010:
0.856 |
|
for 2009:
0.789 |
|
Scopus Metrics |
|
2023 |
CiteScore |
1.800 |
|
2023 |
SNIP |
0.888 |
|
2023 |
SJR |
0.493 |
|
2022 |
SJR |
0.576 |
|
2021 |
SJR |
0.429 |
|
2020 |
SJR |
0.556 |
|
2019 |
SJR |
0.532 |
|
2018 |
CiteScore |
1.020 |
|
2018 |
SJR |
0.513 |
|
2017 |
CiteScore |
1.050 |
|
2017 |
SNIP |
0.946 |
|
2017 |
SJR |
0.712 |
|
2016 |
CiteScore |
0.620 |
|
2016 |
SNIP |
0.783 |
|
2016 |
SJR |
0.560 |
|
2015 |
CiteScore |
0.830 |
|
2015 |
SNIP |
1.099 |
|
2015 |
IPP |
0.764 |
|
2015 |
SJR |
0.763 |
|
2014 |
CiteScore |
0.810 |
|
2014 |
SNIP |
0.730 |
|
2014 |
IPP |
0.793 |
|
2014 |
SJR |
0.569 |
|
2013 |
SNIP |
0.630 |
|
2013 |
IPP |
0.770 |
|
2013 |
SJR |
0.608 |
|
2012 |
SNIP |
0.632 |
|
2012 |
IPP |
0.640 |
|
2012 |
SJR |
0.385 |
|