5-years impact-factor Math-Net.Ru of «Teoreticheskaya i Matematicheskaya Fizika» journal, 2011

5-years impact-factor Math-Net.Ru of the journal in 2011 is calculated as the number of citations in 2011 to the scientific papers published during 2006–2010.

The table below contains the list of citations in 2011 to the papers published in 2006–2010. 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.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24  Full list
N	Citing pulication		Cited paper
1.	Kowalski O., Sekizawa M., “On natural Riemann extensions”, Publ Math Debrecen, 78:3–4 (2011), 709–721	→	Toward a Theory of Spaces of Constant Curvature V. S. Dryuma TMF, 146:1 (2006),  42–54
2.	Andrei V. Zotov, “$1+1$ Gaudin Model”, SIGMA, 7 (2011), 067, 26 pp.	→	Integrable Model of Interacting Elliptic Tops A. V. Zotov, A. M. Levin TMF, 146:1 (2006),  55–64
3.	Rosengren H., “The three-colour model with domain wall boundary conditions”, Adv in Appl Math, 46:1–4 (2011), 481–535	→	Izergin–Korepin Determinant at a Third Root of Unity Yu. G. Stroganov TMF, 146:1 (2006),  65–76
4.	Cantini L., Sportiello A., “Proof of the Razumov-Stroganov conjecture”, J Combin Theory Ser A, 118:5 (2011), 1549–1574	→	Izergin–Korepin Determinant at a Third Root of Unity Yu. G. Stroganov TMF, 146:1 (2006),  65–76
5.	Galleas W., “A new representation for the partition function of the six-vertex model with domain wall boundaries”, J. Stat. Mech. Theory Exp., 2011, no. 1, P01013, 12 pp.	→	Izergin–Korepin Determinant at a Third Root of Unity Yu. G. Stroganov TMF, 146:1 (2006),  65–76
6.	Brubaker B., Bump D., Friedberg S., “Schur Polynomials and The Yang–Baxter Equation”, Comm Math Phys, 308:2 (2011), 281–301	→	Izergin–Korepin Determinant at a Third Root of Unity Yu. G. Stroganov TMF, 146:1 (2006),  65–76
7.	Mironov A., Morozov A., Shakirov Sh., “A direct proof of AGT conjecture at beta=1”, Journal of High Energy Physics, 2011, no. 2, 067	→	Matrix Models and Matrix Integrals A. D. Mironov TMF, 146:1 (2006),  77–89
8.	Mironov A., Morozov A., Morozov A., “Conformal blocks and generalized Selberg integrals”, Nuclear Phys B, 843:2 (2011), 534–557	→	Matrix Models and Matrix Integrals A. D. Mironov TMF, 146:1 (2006),  77–89
9.	Marshakov A., Mironov A., Morozov A., “On AGT relations with surface operator insertion and a stationary limit of beta-ensembles”, J Geom Phys, 61:7 (2011), 1203–1222	→	Matrix Models and Matrix Integrals A. D. Mironov TMF, 146:1 (2006),  77–89
10.	A. T. Filippov, “Affine generalizations of gravity in the light of modern cosmology”, Problemy sovremennoi teoreticheskoi i matematicheskoi fiziki. Kalibrovochnye teorii i superstruny, Sbornik statei. K 70-letiyu so dnya rozhdeniya akademika Andreya Alekseevicha Slavnova, Tr. MIAN, 272, MAIK «Nauka/Interperiodika», M., 2011, 117–128	→	Integrable Models of $(1+1)$-Dimensional Dilaton Gravity Coupled to Scalar Matter A. T. Filippov TMF, 146:1 (2006),  115–131
11.	Harlow D., Maltz J., Witten E., “Analytic continuation of Liouville theory”, Journal of High Energy Physics, 2011, no. 12, 071	→	Bulk Correlation Functions in 2d Quantum Gravity I. K. Kostov, V. B. Petkova TMF, 146:1 (2006),  132–145
12.	Kudryashov N.A., Sinelshchikov D.I., Demina M.V., “Exact solutions of the generalized Bretherton equation”, Phys. Lett. A, 375:7 (2011), 1074–1079	→	Proof of the Absence of Elliptic Solutions of the Cubic Complex Ginzburg–Landau Equation S. Yu. Vernov TMF, 146:1 (2006),  161–171
13.	Demina M.V., Kudryashov N.A., “Explicit expressions for meromorphic solutions of autonomous nonlinear ordinary differential equations”, Commun. Nonlinear Sci. Numer. Simul., 16:3 (2011), 1127–1134	→	Proof of the Absence of Elliptic Solutions of the Cubic Complex Ginzburg–Landau Equation S. Yu. Vernov TMF, 146:1 (2006),  161–171
14.	Demina M.V., Kudryashov N.A., “On elliptic solutions of nonlinear ordinary differential equations”, Applied Mathematics and Computation, 217:23 (2011), 9849–9853	→	Proof of the Absence of Elliptic Solutions of the Cubic Complex Ginzburg–Landau Equation S. Yu. Vernov TMF, 146:1 (2006),  161–171
15.	Kudryashov N.A., Ryabov P.N., Sinelshchikov D.I., “Nonlinear waves in media with fifth order dispersion”, Phys Lett A, 375:20 (2011), 2051–2055	→	Proof of the Absence of Elliptic Solutions of the Cubic Complex Ginzburg–Landau Equation S. Yu. Vernov TMF, 146:1 (2006),  161–171
16.	M. A. Manko, “Veroyatnostnoe predstavlenie spinovykh sostoyanii i neravenstva dlya unitarnykh matrits”, TMF, 168:1 (2011), 151–161	→	Tomography of Spin States, the Entanglement Criterion, and Bell's Inequalities V. A. Andreev, V. I. Man'ko, O. V. Man'ko, E. V. Shchukin TMF, 146:1 (2006),  172–185
17.	Akopyan L.V., Man'ko V.I., “General Bell-CHSH type and entropic inequalities based on quantum tomograms”, Optics and Spectroscopy, 111:4 (2011), 656–665	→	Tomography of Spin States, the Entanglement Criterion, and Bell's Inequalities V. A. Andreev, V. I. Man'ko, O. V. Man'ko, E. V. Shchukin TMF, 146:1 (2006),  172–185
18.	Habibullin I., Zheltukhin K., Yangubaeva M., “Cartan matrices and integrable lattice Toda field equations”, J. Phys. A: Math. Theor., 44:46 (2011), 465202	→	C-Series Discrete Chains I. T. Habibullin TMF, 146:2 (2006),  208–221
19.	Habibullin I., Zheltukhina N., Sakieva A., “Discretization of hyperbolic type Darboux integrable equations preserving integrability”, J Math Phys, 52:9 (2011), 093507	→	C-Series Discrete Chains I. T. Habibullin TMF, 146:2 (2006),  208–221
20.	Stepanyantz K.V., “Derivation of the exact NSVZ beta-function in N=1 SQED, regularized by higher derivatives, by direct summation of Feynman diagrams”, Nuclear Phys B, 852:1 (2011), 71–107	→	Summation of diagrams in $N=1$ supersymmetric electrodynamics regularized by higher derivatives K. V. Stepanyantz TMF, 146:3 (2006),  385–401
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24  Full list