The method presented and studied in [1, 2] for solving self-adjoint multiparameter spectral problems for weakly coupled systems of ordinary differential equations is based on marching with respect to a parameter introduced into the problem. Although the method is formally applicable to systems of ordinary differential equations with singularities, its direct use for the numerical solution of the problem indicated in this paper’s title is limited. A modification of the method is proposed that applies to the computation of various, including high-frequency, acoustic oscillations in both nearly spherical and strongly prolate spheroids
This paper proposes a Galerkin-type numerical algorithm for an efficient calculation of low eigenfre...
Under the assumption that the variables in the wave equation can be separated and its coefficients a...
Summary. A method is introduced for speeding up resonance computations for modelling human speech pr...
A fast and simple finite difference algorithm for computing the spheroidal wave functions is describ...
In this paper, we present the Abramov approach for the numerical simulation of the whispering galler...
There are many important problems related to spherical domains. Most common examples would be the Ea...
AbstractProlate spheroidal wave functions, because of their many remarkable properties leading to ne...
Abstract: An algorithm for computing eigenspaces of symmetric hyperbolic systems is prese...
We introduce a new approach to the computation of gravito-elastic free oscillations or normal modes ...
In numerous science and engineering applications a partial differential equation has to be solved on...
We examine the merits of using prolate spheroidal wave functions (PSWFs) as basis functions when sol...
AbstractIn this paper, we describe different methods of computing the eigenvalues associated with th...
Our main aim is the accurate computation of a large number of specified eigenvalues and eigenvectors...
We introduce a family of generalized prolate spheroidal wave functions (PSWFs) of order -1, and dev...
This paper proposes a Galerkin-type numerical algorithm for an efficient calculation of low eigenfre...
Under the assumption that the variables in the wave equation can be separated and its coefficients a...
Summary. A method is introduced for speeding up resonance computations for modelling human speech pr...
A fast and simple finite difference algorithm for computing the spheroidal wave functions is describ...
In this paper, we present the Abramov approach for the numerical simulation of the whispering galler...
There are many important problems related to spherical domains. Most common examples would be the Ea...
AbstractProlate spheroidal wave functions, because of their many remarkable properties leading to ne...
Abstract: An algorithm for computing eigenspaces of symmetric hyperbolic systems is prese...
We introduce a new approach to the computation of gravito-elastic free oscillations or normal modes ...
In numerous science and engineering applications a partial differential equation has to be solved on...
We examine the merits of using prolate spheroidal wave functions (PSWFs) as basis functions when sol...
AbstractIn this paper, we describe different methods of computing the eigenvalues associated with th...
Our main aim is the accurate computation of a large number of specified eigenvalues and eigenvectors...
We introduce a family of generalized prolate spheroidal wave functions (PSWFs) of order -1, and dev...
This paper proposes a Galerkin-type numerical algorithm for an efficient calculation of low eigenfre...
Under the assumption that the variables in the wave equation can be separated and its coefficients a...
Summary. A method is introduced for speeding up resonance computations for modelling human speech pr...