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5-years impact-factor Math-Net.Ru of «Teoreticheskaya i Matematicheskaya Fizika» journal, 2017
5-years impact-factor Math-Net.Ru of the journal in 2017 is calculated
as the number of citations in 2017 to the scientific papers published during
2012–2016.
The table below contains the list of citations in 2017 to the papers
published in 2012–2016. 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 |
5-years impact-factor Math-Net.Ru |
Scientific papers |
Citations |
Citated papers |
Journal Self-citations |
2017 |
0.764 |
649 |
496 |
281 |
19.4% |
|
|
N |
Citing pulication |
|
Cited paper |
|
1. |
A. Andrianov, V. Andrianov, D. Espriu, “QCD with Chiral imbalance: models vs. lattice”, XIIth Quark Confinement and the Hadron Spectrum, EPJ Web Conf., 137, eds. Y. Foka, N. Brambilla, V. Kovalenko, EDP Sciences, 2017, UNSP 01005  |
→ |
Abnormal enhancement of dilepton yield in central heavy-ion collisions from local parity breaking A. A. Andrianov, V. A. Andrianov, D. Espriu, X. Planells TMF, 170:1 (2012), 22–33
|
|
2. |
K. Urbanovski, “Svoistva lozhnogo vakuuma kak neustoichivogo kvantovogo sostoyaniya”, TMF, 190:3 (2017), 533–547  |
→ |
Tunneling cosmological state and the origin of Higgs inflation in the standard model A. O. Barvinsky TMF, 170:1 (2012), 62–86
|
3. |
I. Y. Park, “One-loop renormalization of a gravity-scalar system”, Eur. Phys. J. C, 77:5 (2017), 337  |
→ |
Tunneling cosmological state and the origin of Higgs inflation in the standard model A. O. Barvinsky TMF, 170:1 (2012), 62–86
|
|
4. |
J.-M. Shen, X.-G. Wu, Ya. Ma, S. J. Brodsky, “The generalized scheme-independent Crewther relation in QCD”, Phys. Lett. B, 770 (2017), 494–499  |
→ |
New perturbation theory representation of the conformal symmetry breaking effects in gauge quantum field theory models A. L. Kataev, S. V. Mikhailov TMF, 170:2 (2012), 174–187
|
5. |
P. Banerjee, P. K. Dhani, M. Mahakhud, V. Ravindran, S. Seth, “Finite remainders of the Konishi at two loops in $\mathcal{N}=4$ SYM”, J. High Energy Phys., 2017, no. 5, 085  |
→ |
New perturbation theory representation of the conformal symmetry breaking effects in gauge quantum field theory models A. L. Kataev, S. V. Mikhailov TMF, 170:2 (2012), 174–187
|
6. |
S. V. Mikhailov, “On a realization of $\{\beta\}$-expansion in QCD”, J. High Energy Phys., 2017, no. 4, 169  |
→ |
New perturbation theory representation of the conformal symmetry breaking effects in gauge quantum field theory models A. L. Kataev, S. V. Mikhailov TMF, 170:2 (2012), 174–187
|
7. |
M. R. Khellat, A. Mirjalili, “Deviation pattern approach for optimizing perturbative terms of QCD renormalization group invariant observables”, XXIII International Baldin Seminar on High Energy Physics Problems Relativistic Nuclear Physics and Quantum Chromodynamics (Baldin ISHEPP XXIII), EPJ Web Conf., 138, eds. S. Bondarenko, V. Burov, A. Malakhov, EDP Sciences, 2017, UNSP 02004  |
→ |
New perturbation theory representation of the conformal symmetry breaking effects in gauge quantum field theory models A. L. Kataev, S. V. Mikhailov TMF, 170:2 (2012), 174–187
|
|
8. |
T. Bargheer, “Systematics of the multi-Regge three-loop symbol”, J. High Energy Phys., 2017, no. 11, 077  |
→ |
Analytic properties of high-energy production amplitudes in $N{=}4$ SUSY L. N. Lipatov TMF, 170:2 (2012), 206–222
|
|
9. |
A. G. Grozin, T. Mannel, A. A. Pivovarov, “Towards a next-to-next-to-leading order analysis of matching in $(B^0 - \bar{B}^0)$ mixing”, Phys. Rev. D, 96:7 (2017), 074032  |
→ |
$(B^0{-}\bar B^0)$ mixing in the next-to-leading order of the $1/m_b$-expansion A. A. Pivovarov TMF, 170:2 (2012), 230–241
|
|
10. |
K. G. Chetyrkin, J. H. Kuehn, A. Maier, Ph. Maierhoefer, P. Marquard M. Steinhauser, Ch. Sturm, “Addendum to “Charm and bottom quark masses: An update””, Phys. Rev. D, 96:11 (2017), 116007  |
→ |
Precise charm- and bottom-quark masses: Theoretical and experimental uncertainties K. G. Chetyrkin, J. H. Kühn, A. Maier, P. Maierhöfer, P. Marquard, M. Steinhauser, C. Sturm TMF, 170:2 (2012), 265–279
|
11. |
J. Erler, P. Masjuan, H. Spiesberger, “Charm quark mass with calibrated uncertainty”, Eur. Phys. J. C, 77:2 (2017), 99  |
→ |
Precise charm- and bottom-quark masses: Theoretical and experimental uncertainties K. G. Chetyrkin, J. H. Kühn, A. Maier, P. Maierhöfer, P. Marquard, M. Steinhauser, C. Sturm TMF, 170:2 (2012), 265–279
|
12. |
A. Khodjamirian, “Quark-flavor symmetries and their violation in quantum chromodynamics”, Phys. Atom. Nuclei, 80:3 (2017), 542–548  |
→ |
Precise charm- and bottom-quark masses: Theoretical and experimental uncertainties K. G. Chetyrkin, J. H. Kühn, A. Maier, P. Maierhöfer, P. Marquard, M. Steinhauser, C. Sturm TMF, 170:2 (2012), 265–279
|
|
13. |
X.-W. Yan, Sh.-F. Tian, M.-J. Dong, L. Zou, “Characteristics of solitary waves, quasiperiodic solutions, homoclinic breather solutions and rogue waves in the generalized variable-coefficient forced Kadomtsev-Petviashvili equation”, Mod. Phys. Lett. B, 31:36 (2017), 1750350  |
→ |
Super Riemann theta function periodic wave solutions and rational characteristics for a supersymmetric KdV–Burgers equation Shou-fu Tian, Hong-qing Zhang TMF, 170:3 (2012), 350–380
|
14. |
L. Zou, Sh.-F. Tian, X.-B. Wang, T.-T. Zhang, “Lie symmetry analysis and different types of solutions to a generalized bidirectional sixth-order Sawada-Kotera equation”, Chin. J. Phys., 55:6 (2017), 2236–2248  |
→ |
Super Riemann theta function periodic wave solutions and rational characteristics for a supersymmetric KdV–Burgers equation Shou-fu Tian, Hong-qing Zhang TMF, 170:3 (2012), 350–380
|
|
15. |
A. O. Savchenko, “Matritsa momentov ot polinomov Lezhandra i prilozhenie ee svoistv v zadachakh elektrostatiki”, Zh. vychisl. matem. i matem. fiz., 57:1 (2017), 163–175  |
→ |
Ellipsoid flowed around by a harmonic vector field A. O. Savchenko, O. Ya. Savchenko TMF, 170:3 (2012), 381–392
|
|
16. |
S. N. Lakaev, Sh. S. Lakaev, “The existence of bound states in a system of three particles in an optical lattice”, J. Phys. A-Math. Theor., 50:33 (2017), 335202  |
→ |
Existence and analyticity of bound states of a two-particle Schrödinger operator on a lattice S. N. Lakaev, S. S. Ulashov TMF, 170:3 (2012), 393–408
|
|
17. |
D. A. Rumyantsev, D. M. Shlenev, A. A. Yarkov, “Resonances in Compton-Like scattering processes in an external magnetized medium”, J. Exp. Theor. Phys., 125:3 (2017), 410–419  |
→ |
Neutrino processes in an external magnetic field in the density matrix formalism A. A. Gvozdev, E. V. Osokina TMF, 170:3 (2012), 423–447
|
|
18. |
U. A. Rozikov, I. A. Sattarov, “$p$-Adic dynamical systems of (2,2)-rational functions with unique fixed point”, Chaos Solitons Fractals, 105 (2017), 260–270  |
→ |
A polynomial $p$-adic dynamical system F. M. Mukhamedov, U. A. Rozikov TMF, 170:3 (2012), 448–456
|
|
19. |
V. V. Vedenyapin, M. A. Negmatov, N. N. Fimin, “Uravneniya tipa Vlasova i Liuvillya, ikh mikroskopicheskie, energeticheskie i gidrodinamicheskie sledstviya”, Izv. RAN. Ser. matem., 81:3 (2017), 45–82  |
→ |
Derivation and classification of Vlasov-type and magnetohydrodynamics equations: Lagrange identity and Godunov's form V. V. Vedenyapin, M. A. Negmatov TMF, 170:3 (2012), 468–480
|
|
20. |
J. A. Esquivel-Avila, “Remarks on the qualitative behavior of the undamped Klein–Gordon equation”, Proceedings of Equadiff 2017 Conference, eds. K. Mikula, D. Sevcovic, J. Urban, Spektrum Stu Publishing, 2017, 221–228  |
→ |
Blowup of a positive-energy solution of model wave equations in nonlinear dynamics M. O. Korpusov TMF, 171:1 (2012), 3–17
|
|
|
Total publications: |
7880 |
Scientific articles: |
7742 |
Authors: |
4591 |
Citations: |
30097 |
Cited articles: |
5319 |
 |
Impact Factor Web of Science |
|
for 2019:
0.854 |
|
for 2018:
0.901 |
|
for 2017:
0.851 |
|
for 2016:
0.984 |
|
for 2015:
0.831 |
|
for 2014:
0.801 |
|
for 2013:
0.700 |
|
for 2012:
0.669 |
|
for 2011:
0.650 |
|
for 2010:
0.748 |
|
for 2009:
0.796 |
|
for 2008:
0.721 |
|
for 2007:
0.622 |
|
for 2006:
0.626 |
|
for 2005:
0.569 |
|
for 2004:
0.651 |
|
for 2003:
0.729 |
 |
Scopus Metrics |
|
2019 |
SJR |
0.299 |
|
2018 |
CiteScore |
0.810 |
|
2018 |
SJR |
0.386 |
|
2017 |
CiteScore |
0.800 |
|
2017 |
SNIP |
0.865 |
|
2017 |
SJR |
0.409 |
|
2016 |
CiteScore |
0.740 |
|
2016 |
SNIP |
0.970 |
|
2016 |
SJR |
0.425 |
|
2015 |
CiteScore |
0.650 |
|
2015 |
SNIP |
0.805 |
|
2015 |
IPP |
0.658 |
|
2015 |
SJR |
0.481 |
|
2014 |
CiteScore |
0.650 |
|
2014 |
SNIP |
0.899 |
|
2014 |
IPP |
0.678 |
|
2014 |
SJR |
0.492 |
|
2013 |
SNIP |
0.800 |
|
2013 |
IPP |
0.573 |
|
2013 |
SJR |
0.494 |
|
2012 |
SNIP |
0.764 |
|
2012 |
IPP |
0.555 |
|
2012 |
SJR |
0.294 |
|