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2-летний импакт-фактор Math-Net.Ru журнала «Russian Journal of Nonlinear Dynamics», 2021 год
2-летний импакт-фактор Math-Net.Ru журнала за 2021 год — это количество ссылок
в 2021 г. на научные статьи журнала, опубликованные в 2019–2020 гг.,
деленное на общее число научных статей, опубликованных в журнале в этот период.
В приведенной ниже таблице приводится список цитирования в 2021 г.
научных статей журнала, опубликованных в 2019–2020 гг.
При подсчете учитываются все
цитирующие публикации, найденные нами из различных источников,
в первую очередь из списков литературы публикаций, представленных
на портале. Учитываются ссылки как на оригинальные, так и на
переводные версии статей.
При нахождении новых ссылок на журнал импакт-фактор Math–Net.Ru
может изменяться.
Год |
2-летний импакт-фактор Math-Net.Ru |
Научных статей |
Цитирований |
Цитированных статей |
2021 |
0.742 |
97 |
72 |
44 |
|
|
№ |
Цитирующая статья |
|
Цитированная статья |
|
1. |
De Angelis F. De Angelis M., “On solutions to a FitzHugh-Rinzel type model”, Ric. Mat., 70:1 (2021), 51–65 |
→ |
Analytical Properties and Solutions of the FitzHugh – Rinzel Model A. I. Zemlyanukhin, A. V. Bochkarev Rus. J. Nonlin. Dyn., 15:1 (2019), 3–12
|
2. |
Z. Wang, P. Zhang, I. Moroz, A. Karthikeyan, “Complex dynamics of a FitzHugh-Rinzel neuron model considering the effect of electromagnetic induction”, Sci. Iran., 28:3, SI (2021), 1685–1697 |
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Analytical Properties and Solutions of the FitzHugh – Rinzel Model A. I. Zemlyanukhin, A. V. Bochkarev Rus. J. Nonlin. Dyn., 15:1 (2019), 3–12
|
3. |
A. Mondal, K. Ch. Mistri, M. A. Aziz-Alaoui, R. K. Upadhyay, “An analytical scheme on complete integrability of 2D biophysical excitable systems”, Physica A, 573 (2021), 125924 |
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Analytical Properties and Solutions of the FitzHugh – Rinzel Model A. I. Zemlyanukhin, A. V. Bochkarev Rus. J. Nonlin. Dyn., 15:1 (2019), 3–12
|
|
4. |
De Angelis F., De Angelis M., “On solutions to a FitzHugh-Rinzel type model”, Ric. Mat., 70:1 (2021), 51–65 |
→ |
On Integrability of the FitzHugh – Rinzel Model N. A. Kudryashov Rus. J. Nonlin. Dyn., 15:1 (2019), 13–19
|
|
5. |
E. Artemova, A. Kilin, “Nonlinear stability of regular vortex polygons in a Bose-Einstein condensate”, Phys. Fluids, 33:12 (2021), 127105 |
→ |
Phase Topology of Two Vortices of Identical Intensities in a Bose – Einstein Condensate P. E. Ryabov, S. V. Sokolov Rus. J. Nonlin. Dyn., 15:1 (2019), 59–66
|
6. |
S. M. Ramodanov, S. V. Sokolov, “Dynamics of a Circular Cylinder and Two Point Vortices in a Perfect Fluid”, Regul. Chaotic Dyn., 26:6 (2021), 675–691 |
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Phase Topology of Two Vortices of Identical Intensities in a Bose – Einstein Condensate P. E. Ryabov, S. V. Sokolov Rus. J. Nonlin. Dyn., 15:1 (2019), 59–66
|
7. |
L. G. Kurakin, I. V. Ostrovskaya, “Resonances in the Stability Problem of a Point Vortex Quadrupole on a Plane”, Regul. Chaotic Dyn., 26:5, SI (2021), 526–542 |
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Phase Topology of Two Vortices of Identical Intensities in a Bose – Einstein Condensate P. E. Ryabov, S. V. Sokolov Rus. J. Nonlin. Dyn., 15:1 (2019), 59–66
|
8. |
Elizaveta M. Artemova, Alexander A. Kilin, 2021 International Conference "Nonlinearity, Information and Robotics" (NIR), 2021, 1 |
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Phase Topology of Two Vortices of Identical Intensities in a Bose – Einstein Condensate P. E. Ryabov, S. V. Sokolov Rus. J. Nonlin. Dyn., 15:1 (2019), 59–66
|
9. |
Gleb P. Palshin, Pavel E. Ryabov, Sergei V. Sokolov, 2021 International Conference "Nonlinearity, Information and Robotics" (NIR), 2021, 1 |
→ |
Phase Topology of Two Vortices of Identical Intensities in a Bose – Einstein Condensate P. E. Ryabov, S. V. Sokolov Rus. J. Nonlin. Dyn., 15:1 (2019), 59–66
|
|
10. |
M. M. Anikushin, “On the compactness of solutions to certain operator inequalities arising from the Likhtarnikov-Yakubovich frequency theorem”, Vestn. St Petersb. Univ.-Math., 54:4 (2021), 301–310 |
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On the Smith Reduction Theorem for Almost Periodic ODEs Satisfying the Squeezing Property M. M. Anikushin Rus. J. Nonlin. Dyn., 15:1 (2019), 97–108
|
|
11. |
V. P. Kruglov, P. V. Kuptsov, “Theoretical Models of Physical Systems With Rough Chaos”, Izv. Vyss. Uchebn. Zaved.-Prikl. Nelineynaya Din., 29:1 (2021), 35–77 |
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Generation of Robust Hyperbolic Chaos in CNN S. P. Kuznetsov Rus. J. Nonlin. Dyn., 15:2 (2019), 109–124
|
|
12. |
F. Hassan, V. Kanakaraju, K. Rathinam, G. Norkey, “Numerical analysis of surface integrity in parallel turning PART B: Influence of cutting tool chamfer angle and chamfer width”, Mater. Today-Proc., 44:1 (2021), 266–270 |
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Nonlinear Regenerative Dynamics Analysis of the Multicutter Turning Process A. M. Gouskov, M. A. Guskov, D. D. Tung, G. Y. Panovko Rus. J. Nonlin. Dyn., 15:2 (2019), 145–158
|
13. |
V. Kanakaraju, F. Hassan, K. Rathinam, “Numerical analysis of surface integrity in parallel turning Part A: Influence of cutting tool nose radius”, Mater. Today-Proc., 38:1 (2021), 186–190 |
→ |
Nonlinear Regenerative Dynamics Analysis of the Multicutter Turning Process A. M. Gouskov, M. A. Guskov, D. D. Tung, G. Y. Panovko Rus. J. Nonlin. Dyn., 15:2 (2019), 145–158
|
|
14. |
A. D. Morozov, K. E. Morozov, “Synchronization of quasiperiodic oscillations in nearly Hamiltonian systems: the degenerate case”, Chaos, 31:8 (2021), 083109 |
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Global Dynamics of Systems Close to Hamiltonian Ones Under Nonconservative Quasi-periodic Perturbation A. D. Morozov, K. E. Morozov Rus. J. Nonlin. Dyn., 15:2 (2019), 187–198
|
15. |
O. S. Kostromina, “On two-frequency quasi-periodic perturbations of systems close to two-dimensional Hamiltonian ones with a double limit cycle”, Vestn. Udmurt. Univ.-Mat. Mekh. Kompyuternye Nauk., 31:1 (2021), 35–49 |
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Global Dynamics of Systems Close to Hamiltonian Ones Under Nonconservative Quasi-periodic Perturbation A. D. Morozov, K. E. Morozov Rus. J. Nonlin. Dyn., 15:2 (2019), 187–198
|
16. |
О. С. Костромина, “О резонансах при квазипериодических возмущениях систем с двойным предельным циклом, близких к двумерным нелинейным гамильтоновым”, Журнал СВМО, 23:1 (2021), 11–27 |
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Global Dynamics of Systems Close to Hamiltonian Ones Under Nonconservative Quasi-periodic Perturbation A. D. Morozov, K. E. Morozov Rus. J. Nonlin. Dyn., 15:2 (2019), 187–198
|
|
17. |
E. Nozdrinova, O. Pochinka, “Solution of the 33rd Palis-Pugh problem for gradient-like diffeomorphisms of a two-dimensional sphere”, Discret. Contin. Dyn. Syst., 41:3 (2021), 1101–1131 |
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On a Class of Isotopic Connectivity of Gradient-like Maps of the 2-sphere with Saddles of Negative Orientation Type T. V. Medvedev, E. V. Nozdrinova, O. V. Pochinka, E. V. Shadrina Rus. J. Nonlin. Dyn., 15:2 (2019), 199–211
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|
18. |
S. Misyurin, G. Kreynin, A. Nelyubin, N. Nosova, “Multicriteria optimization of a dynamic system by methods of the theories of similarity and criteria importance”, Mathematics, 9:22 (2021), 2854 |
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Similarity and Analogousness in Dynamical Systems and Their Characteristic Features S. Yu. Misyurin, G. V. Kreinin, N. Yu. Nosova Rus. J. Nonlin. Dyn., 15:3 (2019), 213–220
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19. |
A. A. Safronov, A. A. Koroteev, N. I. Filatov, N. V. Bondareva, “Fast waves development initiated by oscillations of a recoiling liquid filament in a viscous fluid jet”, Thermophys. Aeromechanics, 28:2 (2021), 237–245 |
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Capillary Hydraulic Jump in a Viscous Jet A. A. Safronov, A. A. Koroteev, N. I. Filatov, N. A. Safronova Rus. J. Nonlin. Dyn., 15:3 (2019), 221–231
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|
20. |
L. I. Mogilevich, Yu. A. Blinkov, S. V. Ivanov, “Strain waves in nonlinear coaxial shells filled with a viscous incompressible fluid”, Acoust. Phys., 67:5 (2021), 443–450 |
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The Study of Wave Propagation in a Shell with Soft Nonlinearity and with a Viscous Liquid Inside L. I. Mogilevich, S. V. Ivanov Rus. J. Nonlin. Dyn., 15:3 (2019), 233–250
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Период индексации: |
2005–2024 |
Публикаций: |
895 |
Научных статей: |
778 |
Авторов: |
818 |
Ссылок на журнал: |
2447 |
Цитированных статей: |
496 |
|
Индексы Scopus |
|
2023 |
CiteScore |
1.200 |
|
2023 |
SNIP |
0.472 |
|
2023 |
SJR |
0.260 |
|
2022 |
SJR |
0.259 |
|
2021 |
SJR |
0.339 |
|
2020 |
SJR |
0.323 |
|
2019 |
SJR |
0.215 |
|
2018 |
CiteScore |
0.640 |
|
2018 |
SJR |
0.259 |
|
2017 |
CiteScore |
0.410 |
|
2017 |
SNIP |
0.392 |
|
2017 |
SJR |
0.214 |
|