24 citations to https://www.mathnet.ru/rus/tmf6369
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Desiraju H., “Fredholm Determinant Representation of the Homogeneous Painleve II Tau-Function”, Nonlinearity, 34:9 (2021), 6507–6538
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Peter A. Clarkson, “Open Problems for Painlevé Equations”, SIGMA, 15 (2019), 006, 20 pp.
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Costin O. Dunne V G., “Resurgent Extrapolation: Rebuilding a Function From Asymptotic Data. Painleve i”, J. Phys. A-Math. Theor., 52:44 (2019), 445205
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Sakka A.H., Sulayh A.M., “On Taylor Differential Transform Method For the First Painleve Equation”, Jordan J. Math. Stat., 12:3 (2019), 391–408
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Ahmad I., Ahmad S., Awais M., Ahmad Siraj Ul Islam, Raja Muhammad Asif Zahoor, “Neuro-Evolutionary Computing Paradigm For Painlevé Equation-II in Nonlinear Optics”, Eur. Phys. J. Plus, 133:5 (2018), 184
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Christian Klein, Nikola Stoilov, “Numerical Approach to Painlevé Transcendents on Unbounded Domains”, SIGMA, 14 (2018), 068, 10 pp.
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V. Yu. Novokshenov, Springer Proceedings in Mathematics & Statistics, 273, Recent Developments in Integrable Systems and Related Topics of Mathematical Physics, 2018, 24
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Steinmetz N., “a Unified Approach To the Painlevé Transcendents”, Ann. Acad. Sci. Fenn. Ser. A1-Math., 42:1 (2017), 17–49
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Huang M., Xu Sh.-X., Zhang L., “Location of Poles for the Hastings?McLeod Solution to the Second Painlevé Equation”, Constr. Approx., 43:3 (2016), 463–494
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A.A. Abramov, L.F. Yukhno, “A method for calculating the Painlevé transcendents”, Applied Numerical Mathematics, 93 (2015), 262