An analytic series solution for E-plane T-junction in parallel-plate waveguide

Park, K.H.; Eom, Hyo J.; Yamaguchi, Yoshio

doi:10.1109/22.275273

Cited by 18 publications

(11 citation statements)

References 2 publications

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“…3, our computational experience indicates that the rate of series convergence to achieve numerical accuracy is inversely proportional to the taper angle . When , our transmission coefficient agrees with the E plane T-junction transmission coefficient in [8]. When , the energy conservation is satisfied to better than 2% error with and , indicating a fast convergent rate of our series solution.…”

Section: Tm Field Representationssupporting

confidence: 67%

TM-radiation from an obliquely flanged parallel-plate waveguide

Kwon¹,

Lee²,

Eom³

2002

IEEE Trans. Antennas Propagat.

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Electromagnetic TM wave radiation from an obliquely flanged parallel-plate waveguide is studied. The Fourier-transform/series and Green's formula is used to represent the scattered wave and the simultaneous equations for the modal coefficients are formulated. Residue calculus is utilized to obtain a fast-convergent series solution. Numerical evaluation shows the behaviors of transmission, reflection, and radiation in terms of junction geometry and operating frequency.

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Section: Tm Field Representationssupporting

confidence: 67%

TM-radiation from an obliquely flanged parallel-plate waveguide

Kwon¹,

Lee²,

Eom³

2002

IEEE Trans. Antennas Propagat.

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“…In a͒ Electronic mail: shanhui@stanford.edu all cases, the waveguide lengths in the simulations were chosen large enough to ensure correct calculation of the additional loss of bends. To validate our method, we used it to calculate the transmission coefficient of perfect electric conductor ͑PEC͒ parallel-plate waveguide bends and splitters and found excellent agreement with analytical results 19,20 over the entire frequency range. In Fig.…”

mentioning

confidence: 74%

Bends and splitters in metal-dielectric-metal subwavelength plasmonic waveguides

Veronis¹,

Fan

2005

Applied Physics Letters

616

336

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We investigate the performance of bends and splitters in metal-dielectric-metal subwavelength plasmonic waveguides. We show that bends and splitters with no additional loss over a very wide frequency range can be designed for metal-dielectric-metal waveguides with center layer thickness small compared to the wavelength. We also introduce the concept of characteristic impedance for such systems to account for their behavior.

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“…The E-plane T-junction in a parallel-plate waveguide has extensively been studied in the past [22], [23], [24]. A general cross-section of this junction is depicted in Fig.…”

Section: A Modal Analysis Of a Ppw E-plane T-junctionmentioning

confidence: 99%

“…In order to build the GSM associated to it, we individually excite each port of the junction with an incident TM mode denoted by A ap (where a ∈ {1, 2, 3} is the incident port number and p = 1...m is the mode number). Then, we obtain the complex mode amplitudes (X bqap , where b ∈ {1, 2, 3} is the observation port and q = 1...m is the observation mode) using the analytic series solution method proposed in [23]. Note that the modal coefficients are referred to the T-junction borders (dashed line in Fig.…”

Section: A Modal Analysis Of a Ppw E-plane T-junctionmentioning

confidence: 99%

A Modal-Based Iterative Circuit Model for the Analysis of CRLH Leaky-Wave Antennas Comprising Periodically Loaded PPW

Gómez‐Díaz

Álvarez‐Melcón

Bertuch

2011

IEEE Trans. Antennas Propagat.

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Abstract-A novel modal-based iterative circuit model is described for the calculation of the complex propagation constant of mushroom-like parallel-plate composite right/left handed leakywave antennas (PPW CRLH LWAs). The conventional lossless CRLH unit cell circuit is modified in order to consider the electromagnetic coupling to free space through a slot. For this purpose, a slot equivalent radiative structure, based on phasedarray theory, is analyzed using a mode matching approach combined with Floquet's theorem. A direct correspondence between lumped elements and this radiative structure is found, leading to a frequency-dependent unit cell circuit model. A quickly converging iterative algorithm is then employed to determine the final element values of the unit cell. The proposed method is accurate, and it takes into account the structure physical dimensions. It also allows to obtain a balanced CRLH unit cell design without requiring any full-wave simulation, is several orders of magnitude faster than full-wave simulations, and provides a deep insight into the physics of the antenna radiation mechanism. Index Terms-Composite

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An analytic series solution for E-plane T-junction in parallel-plate waveguide

Cited by 18 publications

References 2 publications

TM-radiation from an obliquely flanged parallel-plate waveguide

TM-radiation from an obliquely flanged parallel-plate waveguide

Bends and splitters in metal-dielectric-metal subwavelength plasmonic waveguides

A Modal-Based Iterative Circuit Model for the Analysis of CRLH Leaky-Wave Antennas Comprising Periodically Loaded PPW

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