24 citations to https://www.mathnet.ru/rus/tmf6369
  1. Desiraju H., “Fredholm Determinant Representation of the Homogeneous Painleve II Tau-Function”, Nonlinearity, 34:9 (2021), 6507–6538  crossref  mathscinet  isi  scopus
  2. Peter A. Clarkson, “Open Problems for Painlevé Equations”, SIGMA, 15 (2019), 006, 20 pp.  mathnet  crossref
  3. Costin O. Dunne V G., “Resurgent Extrapolation: Rebuilding a Function From Asymptotic Data. Painleve i”, J. Phys. A-Math. Theor., 52:44 (2019), 445205  crossref  mathscinet  isi  scopus
  4. 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  mathscinet  isi
  5. 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  crossref  isi  scopus
  6. Christian Klein, Nikola Stoilov, “Numerical Approach to Painlevé Transcendents on Unbounded Domains”, SIGMA, 14 (2018), 068, 10 pp.  mathnet  crossref
  7. V. Yu. Novokshenov, Springer Proceedings in Mathematics & Statistics, 273, Recent Developments in Integrable Systems and Related Topics of Mathematical Physics, 2018, 24  crossref
  8. Steinmetz N., “a Unified Approach To the Painlevé Transcendents”, Ann. Acad. Sci. Fenn. Ser. A1-Math., 42:1 (2017), 17–49  crossref  mathscinet  zmath  isi
  9. 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  crossref  mathscinet  zmath  isi  elib  scopus
  10. A.A. Abramov, L.F. Yukhno, “A method for calculating the Painlevé transcendents”, Applied Numerical Mathematics, 93 (2015), 262  crossref
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