12 citations to https://www.mathnet.ru/rus/tmf10027
  1. P. Gordoa, A. Pickering, Contemporary Mathematics, 807, Recent Progress in Special Functions, 2024, 131  crossref
  2. В. В. Цегельник, “О преобразованиях Беклунда некоторых нелинейных дифференциальных уравнений второго порядка”, ТМФ, 217:2 (2023), 391–403  mathnet  crossref  mathscinet  adsnasa; V. V. Tsegel'nik, “On Bäcklund transformations for some second-order nonlinear differential equations”, Theoret. and Math. Phys., 217:2 (2023), 1755–1766  crossref
  3. I. Bobrova, V. Sokolov, The Diverse World of PDEs, Contemporary Mathematics, 789, 2023, 41  crossref  mathscinet
  4. M. Bershtein, A. Grigorev, A. Shchechkin, “Hamiltonian reductions in matrix Painlevé systems”, Lett. Math. Phys., 113:2 (2023), 47  crossref
  5. I. A. Bobrova, V. V. Sokolov, “On classification of non-Abelian Painlevé type systems”, Journal of Geometry and Physics, 191 (2023), 104885  crossref  mathscinet
  6. I. A. Bobrova, “Different linearizations of non-Abelian second Painlevé systems and related monodromy surfaces”, Journal of Mathematical Physics, 64:10 (2023), 101702  crossref  mathscinet
  7. A. V. Domrin, M. A. Shumkin, B. I. Suleimanov, “Meromorphy of solutions for a wide class of ordinary differential equations of Painlevé type”, Journal of Mathematical Physics, 63:2 (2022)  crossref  mathscinet
  8. I. A. Bobrova, V. V. Sokolov, “On matrix Painlevé-4 equations”, Nonlinearity, 35:12 (2022), 6528  crossref  mathscinet
  9. I. Bobrova, V. Retakh, V. Rubtsov, G. Sharygin, “A fully noncommutative analog of the Painlevé IV equation and a structure of its solutions”, J. Phys. A: Math. Theor., 55:47 (2022), 475205  crossref  mathscinet
  10. V. E. Adler, M. P. Kolesnikov, “Non-Abelian Toda lattice and analogs of Painlevé III equation”, Journal of Mathematical Physics, 63:10 (2022)  crossref
1
2
Следующая