42 citations to 10.1007/BF02099609 (Crossref Cited-By Service)
  1. Emilia L K Blåsten, Valter Pohjola, “Cones with convoluted geometry that always scatter or radiate”, Inverse Problems, 38, № 12, 2022, 125001  crossref
  2. M V de Hoop, M Lassas, M Santacesaria, S Siltanen, J P Tamminen, “Positive-energy D-bar method for acoustic tomography: a computational study”, Inverse Problems, 32, № 2, 2016, 025003  crossref
  3. Anna Kazeykina, “Solitons and large time behavior of solutions of a multidimensional integrable equation”, Journées équations aux dérivées partielles, 2014, 1  crossref
  4. Pierre C. Sabatier, “Past and future of inverse problems”, Journal of Mathematical Physics, 41, № 6, 2000, 4082  crossref
  5. Roman G. Novikov, “Method With Nonzero Background Potential. Application to Inverse Scattering for the”, Communications in Partial Differential Equations, 21, № 3-4, 1996, 597  crossref
  6. Valery S Serov, Lassi Päivärinta, “New estimates of the Green–Faddeev function and recovering of singularities in the two-dimensional Schrödinger operator with fixed energy”, Inverse Problems, 21, № 4, 2005, 1291  crossref
  7. A. D. Agaltsov, R. G. Novikov, “Examples of solution of the inverse scattering problem and the equations of the Novikov–Veselov hierarchy from the scattering data of point potentials”, Russ. Math. Surv., 74, № 3, 2019, 373  crossref
  8. R.G. Novikov, Scattering, 2002, 1729  crossref
  9. Roman G. Novikov, Matteo Santacesaria, “Monochromatic Reconstruction Algorithms for Two-dimensional Multi-channel Inverse Problems”, International Mathematics Research Notices, 2013, № 6, 2013, 1205  crossref
  10. Damien Gobin, “Inverse Scattering at Fixed Energy for Radial Magnetic Schrödinger Operators with Obstacle in Dimension Two”, Ann. Henri Poincaré, 19, № 10, 2018, 3089  crossref
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