Discrete and Continuous Models and Applied Computational ScienceDiscrete and Continuous Models and Applied Computational Science2658-46702658-7149Peoples' Friendship University of Russia named after Patrice Lumumba (RUDN University)8264Research ArticleSingularities of the Green Function for the Schrödinger Operator with a Potential, Singular at the OriginYakovlevS LDepartment of computational physicssl-yakovlev@yandex.ruGradusovV ADepartment of computational physics-St. Petersburg University15012014115315708092016Copyright © 2014,2014We study the asymptote r → 0 of the Green function G+(r,0,k2) for the Schrödinger operator with a short-range potential of arbitrary form, singular at the origin as r−ρ with ρ 0. A short-range potential by deﬁnition is a potential that decreases at inﬁnity more rapidly than the Coulomb one. This is done on the basis of integral Lippmann-Schwinger equation for the Green function in coordinate representation. It is shown that to describe the asymptote one has to distinguish three cases depending on the value of potential’s parameter ρ. If the singularity is weaker than that of the Coulomb potential, the Green function has a standard singularity, namely the singularity of the form r−1. In the case 1 ≤ ρ 2 an additional singularity arises. If ρ = 1 the additional singularity has the same form as in the case of the Coulomb potential. In the case 1 ρ 2 it has the form of a polar singularity of the form r−ρ+1. In all cases described above the singular terms of asymptotic expansions are written in explicit forms via potential V ’s parameters that describe its behaviour at inﬁnity. The problem that we consider has interesting applications in physics, for example in a theory of zero range potentials.scattering theoryGreen functionsingular potentialscoordinate asymptotesтеория рассеянияфункция Гринасингулярные потенциалыкоординатные асимптотики