49 citations to https://www.mathnet.ru/rus/sm1891
  1. Raphael Taraca, Guido Schneider, “From the Zakharov system to the NLS equation on the torus”, Journal of Applied Analysis, 2025  crossref
  2. Sarah Hofbauer, Guido Schneider, “A Linear Schrödinger Approximation for the KdV Equation via IST Beyond the Natural NLS Time Scale”, J Nonlinear Sci, 35:5 (2025)  crossref
  3. Guido Schneider, Nils Thorin, “Approximate Peregrine Solitons in Dispersive Nonlinear Wave Equations”, Water Waves, 2025  crossref
  4. Max Heß, Guido Schneider, “The validity of the derivative NLS approximation for systems with cubic nonlinearities”, Journal of Differential Equations, 410 (2024), 251  crossref
  5. Max Heß, Guido Schneider, “A robust way to justify the derivative NLS approximation”, Z. Angew. Math. Phys., 74:6 (2023)  crossref
  6. Huimin Liu, Xueke Pu, “Nonlinear Schrödinger Approximation for the Electron Euler-Poisson Equation”, Chin. Ann. Math. Ser. B, 44:3 (2023), 361  crossref
  7. Maximilian Wörner, Guido Schneider, “A note on the validity of the Schrödinger approximation for the Helmholtz equation”, Journal of Applied Analysis, 28:1 (2022), 67  crossref
  8. Reika Fukuizumi, Guido Schneider, “Interchanging Space and Time in Nonlinear Optics Modeling and Dispersion Management Models”, J Nonlinear Sci, 32:3 (2022)  crossref
  9. Max Heß, “Validity of the nonlinear Schrödinger approximation for quasilinear dispersive systems with more than one derivative”, Math Methods in App Sciences, 45:3 (2022), 1725  crossref
  10. Maximilian Klumpp, Guido Schneider, “The Schrödinger approximation for the Helmholtz equation if the refractive index is a step function”, Wave Motion, 110 (2022), 102891  crossref
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