Analogue of Bohl theorem for a class of linear partial differential equations

Authors

  • E. Mukhamadiev
    Vologda State University, Lenin str., 15, 160000, Vologda, Russia
  • A.N. Naimov
    Vologda State University, Lenin str., 15, 160000, Vologda, Russia
    Vologda Institute of Law and Economics, Schetinina str., 2, 160002, Vologda, Russia
  • A.Kh. Sattorov
    Khujand State University named after Academician B. Gafurov, Mavlonbekov passage, 1, 735700, Khudjand, Republic of Tajikistan

DOI:

https://doi.org/10.13108/2017-9-1-75

Keywords:

Bohl theorem, bounded solution, symbol of equation, representation of a bounded solution.

Abstract

We study the existence and uniqueness of a solution bounded in the entire space for a class of higher order linear partial differential equations. We prove the theorem on the necessary and sufficient condition for the existence and uniqueness of a bounded solution for a studied class of equations. This theorem is an analogue of the Bohl theorem known in the theory of ordinary differential equations. In a partial case the unique solvability conditions are expressed in terms of the coefficients of the equation and we provide the integral representation for the bounded solution.

Downloads

Published

20.03.2017

Issue

Vol. 9 No. 1 (2017): Ufa Mathematical Journal 2017, volume 9 , issue 1

Section

Article