|
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. |
V. P. Radchenko |
54 |
2. |
V. E. Zoteev |
32 |
3. |
A. F. Zausaev |
25 |
4. |
V. V. Struzhanov |
25 |
5. |
M. N. Saushkin |
23 |
6. |
E. Yu. Prosviryakov |
22 |
7. |
Yu. N. Radayev |
22 |
8. |
O. A. Repin |
20 |
9. |
A. P. Yankovskii |
20 |
10. |
L. A. Mitlina |
19 |
11. |
N. N. Popov |
19 |
12. |
A. A. Andreev |
16 |
13. |
E. N. Ogorodnikov |
16 |
14. |
D. M. Gureev |
15 |
15. |
A. I. Nikonov |
15 |
16. |
O. S. Afanas'eva |
14 |
17. |
A. M. Shterenberg |
14 |
18. |
A. Yu. Samarin |
13 |
19. |
Yu. I. Kadashevich |
12 |
20. |
S. P. Pomytkin |
12 |
21. |
T. K. Yuldashev |
12 |
22. |
Yu. V. Velikanova |
11 |
23. |
V. A. Kudinov |
11 |
24. |
E. V. Murashkin |
11 |
25. |
A. A. Zausaev |
10 |
26. |
V. N. Maklakov |
10 |
27. |
V. S. Melent'ev |
10 |
28. |
Yu. È. Senitskii |
10 |
29. |
V. P. Fedotov |
10 |
30. |
J. O. Yakovleva |
10 |
31. |
M. V. Dolgopolov |
9 |
32. |
A. I. Zhdanov |
9 |
33. |
A. P. Kotenko |
9 |
34. |
I. V. Kudinov |
9 |
35. |
I. N. Rodionova |
9 |
36. |
M. A. Romanyuk |
9 |
37. |
L. V. Stepanova |
9 |
38. |
L. V. Fomin |
9 |
39. |
G. D. Gureev |
8 |
40. |
A. V. Eremin |
8 |
41. |
V. A. Kirpichev |
8 |
42. |
V. A. Kovalev |
8 |
43. |
E. A. Kozlova |
8 |
44. |
K. B. Sabitov |
8 |
45. |
G. B. Sizykh |
8 |
46. |
E. V. Stefanyuk |
8 |
47. |
A. S. Trunin |
8 |
48. |
A. F. Fedotov |
8 |
49. |
A. V. Khokhlov |
8 |
|
20 most published authors of the journal |
|
Most cited authors of the journal |
1. |
V. P. Radchenko |
288 |
2. |
Yu. N. Radayev |
162 |
3. |
E. N. Ogorodnikov |
149 |
4. |
E. Yu. Prosviryakov |
145 |
5. |
E. V. Murashkin |
106 |
6. |
A. A. Andreev |
93 |
7. |
A. V. Khokhlov |
84 |
8. |
O. A. Repin |
81 |
9. |
L. A. Mitlina |
80 |
10. |
T. K. Yuldashev |
79 |
11. |
V. V. Struzhanov |
78 |
12. |
V. E. Zoteev |
76 |
13. |
N. V. Burmasheva |
70 |
14. |
M. N. Saushkin |
68 |
15. |
O. S. Afanas'eva |
58 |
16. |
K. B. Sabitov |
58 |
17. |
N. S. Yashagin |
58 |
18. |
S. K. Kumykova |
50 |
19. |
V. N. Anisimov |
47 |
20. |
N. N. Popov |
46 |
21. |
V. L. Litvinov |
45 |
22. |
A. F. Zausaev |
44 |
23. |
V. A. Kudinov |
42 |
24. |
V. A. Kovalev |
41 |
25. |
J. O. Yakovleva |
41 |
26. |
A. V. Ankilov |
39 |
27. |
P. A. Vel'misov |
39 |
28. |
L. A. Saraev |
38 |
29. |
G. A. Sviridyuk |
38 |
30. |
Yu. V. Velikanova |
37 |
31. |
A. V. Volkov |
37 |
32. |
S. M. Sitnik |
37 |
33. |
A. I. Nikonov |
36 |
34. |
A. Kh. Bikulov |
35 |
35. |
A. P. Zubarev |
35 |
36. |
S. N. Kubyshkina |
33 |
37. |
A. Yu. Samarin |
33 |
38. |
A. P. Yankovskii |
33 |
39. |
A. I. Kozhanov |
32 |
40. |
S. A. Dudkin |
31 |
|
20 most cited authors of the journal |
|
Most cited articles of the journal |
1. |
The Lagrange multipliers method in covariant formulations of micropolar continuum mechanics theories Yu. N. Radayev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2018, 22:3, 504–517 |
37 |
2. |
Refinements of integral Cauchy–Bunyakovskii inequality S. M. Sitnik Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2000, 9, 37–45 |
37 |
3. |
On a micropolar theory of growing solids E. V. Murashkin, Yu. N. Radayev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2020, 24:3, 424–444 |
32 |
4. |
Fluctuations of a beam with clamped ends K. B. Sabitov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2015, 19:2, 311–324 |
29 |
5. |
Inverse Problem for a Fredholm Third Order Partial Integro-differential Equation T. K. Yuldashev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2014, 1(34), 56–65 |
29 |
6. |
A large-scale layered stationary convection of a incompressible viscous fluid under the action
of shear stresses at the upper boundary. Velocity field investigation N. V. Burmasheva, E. Yu. Prosviryakov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2017, 21:1, 180–196 |
28 |
7. |
On the Neuber theory of micropolar elasticity. A pseudotensor formulation V. A. Kovalev, E. V. Murashkin, Yu. N. Radayev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2020, 24:4, 752–761 |
25 |
8. |
On the solvability of a boundary-value problem with a non-local boundary condition for linear parabolic equations A. I. Kozhanov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2004, 30, 63–69 |
24 |
9. |
Calculation procedure of a fatique point for strengthened cylindrical specimen with pressure concentrators at temperature endurances in the creep conditions V. P. Radchenko, O. S. Afanas'eva Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2009, 2(19), 264–268 |
23 |
10. |
On self-similar solution of an equation of the third order with multiple characteristics T. D. Dzhuraev, Yu. P. Apakov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2007, 2(15), 18–26 |
23 |
11. |
The nonlinear Maxwell-type model for viscoelastoplastic materials:
simulation of temperature influence on creep, relaxation and strain-stress curves A. V. Khokhlov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2017, 21:1, 160–179 |
22 |
12. |
Long-term strength curves generated by the nonlinear Maxwell-type model
for viscoelastoplastic materials and the linear damage rule under step loading A. V. Khokhlov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2016, 20:3, 524–543 |
22 |
13. |
Rheological model of viscoelastic body with memory and differential equations of fractional oscillator E. N. Ogorodnikov, V. P. Radchenko, N. S. Yashagin Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2011, 1(22), 255–268 |
21 |
14. |
Some Special Functions in the Solution To Cauchy Problem for a Fractional Oscillating Equation E. N. Ogorodnikov, N. S. Yashagin Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2009, 1(18), 276–279 |
21 |
15. |
Problem with shift for the third-order equation with discontinuous coefficients O. A. Repin, S. K. Kumykova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2012, 4(29), 17–25 |
20 |
16. |
Investigation of Resonance Characteristics of Mechanical Objects with Moving Borders by Application of the Kantorovich-Galyorkin Method V. N. Anisimov, V. L. Litvinov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2009, 1(18), 149–158 |
19 |
17. |
Development of physical principles and algorithms of computer modelling of basic processes of the microstructure formation by the methods of probabilistic cellular automaton A. N. Agaphonov, A. V. Volkov, S. B. Konygin, A. G. Sanoyan Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2007, 1(14), 99–107 |
19 |
18. |
The mathematical model of inelastic deformation and failure of the metals by energy-type creep V. P. Radchenko Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 1996, 4, 43–63 |
19 |
19. |
A large-scale layered stationary convection of a incompressible viscous fluid under the action of shear stresses at the upper boundary. Temperature and presure field investigation N. V. Burmasheva, E. Yu. Prosviryakov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2017, 21:4, 736–751 |
18 |
20. |
Experimental study and analysis of the inelastic micro- and macro-inhomogeneity fields of AD-1 alloy V. P. Radchenko, S. A. Dudkin, M. I. Timofeev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2002, 16, 111–117 |
18 |
21. |
Development and research in digital linear models of dissipative systems wavering V. E. Zoteev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 1999, 7, 170–177 |
18 |
22. |
Couette–Hiemenz exact solutions for the steady creeping convective flow of a viscous incompressible fluid,
with allowance made for heat recovery V. V. Privalova, E. Yu. Prosviryakov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2018, 22:3, 532–548 |
17 |
23. |
Stability of solution of one nonlinear initial-boundary problem of aeroelasticity A. V. Ankilov, P. A. Vel'misov, Yu. A. Kazakova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2013, 2(31), 120–126 |
17 |
24. |
On a method of analytical solution of wave equation describing the oscillations sistem with moving boundaries V. N. Anisimov, V. L. Litvinov, I. V. Korpen Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2012, 3(28), 145–151 |
17 |
25. |
On Direct and Inverse Problems for the Hoff Equations on Graph G. A. Sviridyuk, A. A. Bayazitova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2009, 1(18), 6–17 |
17 |
26. |
Initial-boundary value problem for the equation of forced vibrations of a cantilever beam K. B. Sabitov, O. V. Fadeeva Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2021, 25:1, 51–66 |
16 |
27. |
Hierarchical dynamical model of financial market near the crash point and $p$-adic mathematical analysis A. Kh. Bikulov, A. P. Zubarev, L. V. Kaidalova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2006, 42, 135–140 |
16 |
28. |
Calculation of relaxation of residual stresses in a surface-hardened layer of a cylindrical specimen under creep conditions V. P. Radchenko, M. N. Saushkin Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2001, 12, 61–73 |
16 |
29. |
Analysis of creep curves produced by the linear viscoelasticity theory under cyclic stepwise loadings A. V. Khokhlov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2017, 21:2, 326–361 |
15 |
30. |
Mathematical Modeling of Molecular “nano-machines” V. A. Avetisov, A. Kh. Bikulov, A. P. Zubarev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2011, 1(22), 9–15 |
15 |
31. |
Setting and Solving of the Cauchy type problems for the Second Order Differential Equations with Riemann–Liouville Fractional Derivatives E. N. Ogorodnikov, N. S. Yashagin Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2010, 1(20), 24–36 |
15 |
32. |
Physical-chemical principles of preparation, structure imperfection and properties of single-crystalline ferrite spinel films (review) L. A. Mitlina Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2004, 30, 114–149 |
15 |
33. |
Recursive parametrical identification of multidimensional linear dynamic systems with local autocorrelated noises in input and output signals D. V. Ivanov, O. A. Katsyuba Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2011, 4(25), 102–109 |
14 |
34. |
The correctness of the Cauchy–Goursat problem for loaded degenerate hyperbolic equations in some special cases, and its equivalent to the problem with nonlocal boundary conditions E. N. Ogorodnikov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2004, 26, 26–38 |
14 |
35. |
Structural model of supercritical elasto-plastic deformation of materials under uniaxial tension V. P. Radchenko, E. V. Nebogina, M. V. Basov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2000, 9, 55–65 |
14 |
36. |
Matrix integro-differential operators and their application A. A. Andreev, E. N. Ogorodnikov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 1999, 7, 27–37 |
14 |
37. |
On a ordering of area tensor elements orientations in a micropolar continuum immersed in an external plane space E. V. Murashkin, Yu. N. Radayev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2021, 25:4, 776–786 |
13 |
38. |
Creep and long-term strength of metals under unsteady complex stress states (Review) A. M. Lokoshchenko, L. V. Fomin, W. V. Teraud, Yu. G. Basalov, V. S. Agababyan Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2020, 24:2, 275–318 |
13 |
39. |
Nonlocal problem for a equation of mixed type of third order with generalized operators of fractional integro-differentiation of arbitrary order O. A. Repin, S. K. Kumykova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2011, 4(25), 25–36 |
13 |
40. |
About one Method of Obtaining of the Exact Analytical Decision of the Hyperbolic Equation of Heat Conductivity on the Basis of Use of Orthogonal Methods V. A. Kudinov, I. V. Kudinov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2010, 5(21), 159–169 |
13 |
41. |
Hoff Equation Stability on a Graph G. A. Sviridyuk, S. A. Zagrebina, P. O. Pivovarova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2010, 1(20), 6–15 |
13 |
42. |
To description of creep process and fracture of hardening materials according to kinetic equations with scalar damage parameter B. V. Gorev, I. A. Banshchikova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2009, 2(19), 90–98 |
13 |
43. |
Modified grid method for solving linear differential equation equipped with variable coefficients based on Taylor series V. P. Radchenko, A. A. Usov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2008, 2(17), 60–65 |
13 |
44. |
To the description of softening stage of “stress–strain” diagram with scalar damage parameter kinetic equations B. V. Gorev, I. A. Banshchikova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2008, 2(17), 110–117 |
13 |
45. |
The modified Masing model V. V. Struzhanov, Vyach. V. Bashurov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2007, 1(14), 29–39 |
13 |
46. |
A mathematical model of rheological deformation and fracture for thick-walled pipe V. P. Radchenko, S. N. Kubyshkina Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 1998, 6, 23–34 |
13 |
|
20 most cited articles of the journal |
|
Most requested articles of the journal |
|
|
1. |
Дифференциальные уравнения (операторный метод) Yu. V. Malyshev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2006, 42, 5–10 | 37 |
2. |
Identification of parameters of convection–diffusion–reaction model and unknown boundary conditions in the presence of random noise in measurements Yu. V. Tsyganova, A. V. Tsyganov, A. N. Kuvshinova, D. V. Galushkina Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2024, 28:2, 345–366 | 24 |
3. |
Gravitational field of a homogeneous cube. Classical and relativistic case V. N. Makarov, L. A. Shleiger, A.A Karasev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2024, 28:2, 302–323 | 23 |
4. |
Standard model alignment Higgs boson scenarios in nonminimal supersymmetry M. V. Dolgopolov, A. V. Gurskaya Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2016, 20:4, 581–588 | 22 |
5. |
Parametric identification of concentrated effects in multidimensional inverse heat conduction problems A. N. Diligenskaya, I. S. Bochkareva Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2024, 28:2, 286–301 | 22 |
6. |
Periodic solutions for an impulsive system of integro-differential equations with maxima T. K. Yuldashev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2022, 26:2, 368–379 | 21 |
7. |
Implicit iterative scheme based on the pseudo-inversion algorithm and its application A. I. Zhdanov, Yu. V. Sidorov Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2024, 28:1, 117–129 | 21 |
8. |
Development and comparative analysis of mathematical models for the functioning of the regional power system of the Samara region V. E. Zoteev, L. A. Sagitova, A. A. Gavrilova Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2024, 28:3, 586–608 | 20 |
9. |
Об одной задаче для уравнения смешанного типа с двумя плоскостями вырождения в бесконечной призматической области M. M. Khachev Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2002, 16, 15–18 | 18 |
10. |
Aharonov–Bohm magnetic effect: approach without vector potential V. A. Yatsenko, K. V. Yatsenko Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2007, 1(14), 184–187 | 18 |
|
Total publications: |
1633 |
Scientific articles: |
1596 |
Authors: |
1447 |
Citations: |
3711 |
Cited articles: |
973 |
|
Impact Factor Web of Science |
|
for 2023:
0.700 |
|
Scopus Metrics |
|
2023 |
CiteScore |
1.500 |
|
2023 |
SNIP |
0.823 |
|
2023 |
SJR |
0.370 |
|
2022 |
CiteScore |
1.146 |
|
2022 |
SNIP |
0.671 |
|
2022 |
SJR |
0.298 |
|
2021 |
CiteScore |
0.731 |
|
2021 |
SNIP |
0.616 |
|
2021 |
SJR |
0.323 |
|
2020 |
CiteScore |
0.381 |
|
2020 |
SNIP |
0.425 |
|
2020 |
SJR |
0.302 |
|