Add to ORKGIn this paper a radial mode matching analysis is presented to calculate rigorously the TE and TM mode propagation in single- double-, triple-, and quadruple-ridged circular waveguide structures. The ridges have been cut radially in all the cases. Results are presented for variations of the ridge depth and ridge thickness and are compared to results from finite element analysis. Furthermore, for the first time, the characteristic impedance of the double and quadruple-ridged circular waveguides have been calculated using the power-voltage definition
Radial transmission-line formalism is a generalization of Marcuvitz-Schwinger theory that permits to...
The surface impedance approximation, which regards the waveguide wall as an anisotoropic impedance-w...
The accurate consideration of propagation losses in arbitrarily shaped waveguide-based structures is...
In this paper a radial mode matching analysis is presented to calculate rigorously the TE and TM mod...
Abstract—A fast and efficient radial mode-matching technique (RMMT) is applied to the analysis and d...
In this paper, results on the modal spectrum analysis of a Ridged Circular Waveguide (RCW) obtained ...
This paper describes a radial mode matching algorithm for the S-parameter computation of circular ri...
We present a frequency domain finite difference approach in curvilinear coordinates to the computa...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
In this contribution, the full-wave equivalent circuit and the discrete mode matching (DMM) method a...
[[abstract]]A mode-matching technique in conjunction with the Floquet theorem is proposed to analyze...
Abstract—Cutoff wavenumbers of transverse electric (TE) and transverse magnetic (TM) modes of ridged...
Radial transmission-line formalism is a generalization of Marcuvitz-Schwinger theory that permits to...
The surface impedance approximation, which regards the waveguide wall as an anisotoropic impedance-w...
The accurate consideration of propagation losses in arbitrarily shaped waveguide-based structures is...
In this paper a radial mode matching analysis is presented to calculate rigorously the TE and TM mod...
Abstract—A fast and efficient radial mode-matching technique (RMMT) is applied to the analysis and d...
In this paper, results on the modal spectrum analysis of a Ridged Circular Waveguide (RCW) obtained ...
This paper describes a radial mode matching algorithm for the S-parameter computation of circular ri...
We present a frequency domain finite difference approach in curvilinear coordinates to the computa...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
Circular multiridge waveguides (CMRW) have been recently considered for their promise in application...
In this contribution, the full-wave equivalent circuit and the discrete mode matching (DMM) method a...
[[abstract]]A mode-matching technique in conjunction with the Floquet theorem is proposed to analyze...
Abstract—Cutoff wavenumbers of transverse electric (TE) and transverse magnetic (TM) modes of ridged...
Radial transmission-line formalism is a generalization of Marcuvitz-Schwinger theory that permits to...
The surface impedance approximation, which regards the waveguide wall as an anisotoropic impedance-w...
The accurate consideration of propagation losses in arbitrarily shaped waveguide-based structures is...