21 citations to 10.1515/jiip-2015-0025 (Crossref Cited-By Service)
  1. İsmet Gölgeleyen, “An inverse problem for a generalized kinetic equation in semi-geodesic coordinates”, Journal of Geometry and Physics, 168, 2021, 104318  crossref
  2. A. L. Karchevsky, V. A. Dedok, “Reconstruction of Permittivity from the Modulus of a Scattered Electric Field”, J. Appl. Ind. Math., 12, № 3, 2018, 470  crossref
  3. R.G. Novikov, “Inverse scattering without phase information”, Séminaire Laurent Schwartz — EDP et applications, 2015, 1  crossref
  4. V. G. Romanov, “Phaseless Inverse Problems for Schrödinger, Helmholtz, and Maxwell Equations”, Comput. Math. and Math. Phys., 60, № 6, 2020, 1045  crossref
  5. V. G. Romanov, “Plane Wave Solutions to the Equations of Electrodynamics in an Anisotropic Medium”, Sib Math J, 60, № 4, 2019, 661  crossref
  6. V. G. Romanov, “The problem of recovering the permittivity coefficient from the modulus of the scattered electromagnetic field”, Sib Math J, 58, № 4, 2017, 711  crossref
  7. Michael V Klibanov, Vladimir G Romanov, “Two reconstruction procedures for a 3D phaseless inverse scattering problem for the generalized Helmholtz equation”, Inverse Problems, 32, № 1, 2016, 015005  crossref
  8. V. G. Romanov, “Problem of determining the permittivity in the stationary system of Maxwell equations”, Dokl. Math., 95, № 3, 2017, 230  crossref
  9. Vladimir G. Romanov, Masahiro Yamamoto, “Phaseless inverse problems with interference waves”, Journal of Inverse and Ill-posed Problems, 26, № 5, 2018, 681  crossref
  10. V. A. Dedok, A. L. Karchevsky, V. G. Romanov, “A Numerical Method of Determining Permittivity from the Modulus of the Electric Intensity Vector of an Electromagnetic Field”, J. Appl. Ind. Math., 13, № 3, 2019, 436  crossref
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