Қарағанды университетінің хабаршысы. Математика сериясы (Mar 2024)

On solvability of the inverse problem for a fourth-order parabolic equation with a complex-valued coefficient

  • A.B. Imanbetova,
  • A.A. Sarsenbi,
  • B. Seilbekov

DOI
https://doi.org/10.31489/2024m1/60-72
Journal volume & issue
Vol. 113, no. 1

Abstract

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In this paper, the inverse problem for a fourth-order parabolic equation with a variable complex-valued coefficient is studied by the method of separation of variables. The properties of the eigenvalues of the Dirichlet and Neumann boundary value problems for a non-self-conjugate fourth-order ordinary differential equation with a complex-valued coefficient are established. Known results on the Riesz basis property of eigenfunctions of boundary value problems for ordinary differential equations with strongly regular boundary conditions in the space L2(−1,1) are used. On the basis of the Riesz basis property of eigenfunctions, formal solutions of the problems under study are constructed and theorems on the existence and uniqueness of solutions are proved. When proving theorems on the existence and uniqueness of solutions, the Bessel inequality for the Fourier coefficients of expansions of functions from space L2(−1,1) into a Fourier series in the Riesz basis is widely used. The representations of solutions in the form of Fourier series in terms of eigenfunctions of boundary value problems for a fourth-order equation with involution are derived. The convergence of the obtained solutions is discussed.

Keywords