Add to ORKGThe Green function for wave-body interaction in a channel of rectangular cross section is discussed in this paper. The results from an asymptotic analysis are outlined, which lead a numerical solution and some insight into the singular or resonant behavior of the Green function. Also presented is a preliminary analysis towards developing an efficient approximation of the channel Green function
The construction of the Green functions for the Neumann boundary value problems of the Helmholtz equ...
10.1109/22.372122IEEE Transactions on Microwave Theory and Techniques433700-702IETM
We develop further a new method for employing a set of real basis functions to represent the Green f...
10.1109/22.740078IEEE Transactions on Microwave Theory and Techniques47167-73IETM
A rigorous method for solving 2D scattering by a PEC obstacle of arbitrary cross-section shape withi...
10.1109/22.740080IEEE Transactions on Microwave Theory and Techniques47174-81IETM
This second part of a two-paper sequence deals with the uniform asymptotic description of the Green'...
This paper presents a set of analytical solutions (Green functions) for the steady state response of...
à paraitreInternational audienceGreen's functions are important mathematical tools in mechanics and ...
We develop a method for a coupled-channel calculation of the optical potential in which the multicha...
The subject of this thesis lies in the field of many-body theory. This field emerged from the aim to...
This paper applies to channel hydraulics a recent paper on partial differential equation theory. Equ...
The homogeneous Green’s function is the difference between an impulse response and its time-reversal...
The present work is concerned with descriptions of acoustic wave behaviour in the presence of rigid ...
A new analytical method for the approximate computation of the time-dependent Green's function for t...
The construction of the Green functions for the Neumann boundary value problems of the Helmholtz equ...
10.1109/22.372122IEEE Transactions on Microwave Theory and Techniques433700-702IETM
We develop further a new method for employing a set of real basis functions to represent the Green f...
10.1109/22.740078IEEE Transactions on Microwave Theory and Techniques47167-73IETM
A rigorous method for solving 2D scattering by a PEC obstacle of arbitrary cross-section shape withi...
10.1109/22.740080IEEE Transactions on Microwave Theory and Techniques47174-81IETM
This second part of a two-paper sequence deals with the uniform asymptotic description of the Green'...
This paper presents a set of analytical solutions (Green functions) for the steady state response of...
à paraitreInternational audienceGreen's functions are important mathematical tools in mechanics and ...
We develop a method for a coupled-channel calculation of the optical potential in which the multicha...
The subject of this thesis lies in the field of many-body theory. This field emerged from the aim to...
This paper applies to channel hydraulics a recent paper on partial differential equation theory. Equ...
The homogeneous Green’s function is the difference between an impulse response and its time-reversal...
The present work is concerned with descriptions of acoustic wave behaviour in the presence of rigid ...
A new analytical method for the approximate computation of the time-dependent Green's function for t...
The construction of the Green functions for the Neumann boundary value problems of the Helmholtz equ...
10.1109/22.372122IEEE Transactions on Microwave Theory and Techniques433700-702IETM
We develop further a new method for employing a set of real basis functions to represent the Green f...