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Characteristics of microstrip leaky wave antenna using the method of moments

Characteristics of microstrip leaky wave antenna using the method of moments

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An efficient MoM algorithm is introduced to analyse large travelling-wave structures, exemplified with a microstrip leaky wave antenna. The method utilises a combination of travelling-wave and subdomain basis functions for the current expansion to minimise the number of unknowns in the analysis. The propagation constants which characterise the modal expansions are evaluated efficiently by the algorithm for the implementation of the travelling-wave basis functions. As a result the model overcomes computer memory problems encountered by the conventional MoM model in analysing large antennas where a large impedance matrix is needed. The algorithm is capable of generating results as accurate as that of the conventional method while achieving substantial reduction in computation time and resources.

Inspec keywords: computational complexity; method of moments; leaky wave antennas; microstrip antennas; antenna radiation patterns

Other keywords: large travelling-wave structures; propagation constants; MoM algorithm; method of moments; subdomain basis functions; modal expansions; microstrip leaky wave antenna; computation time

Subjects: Other numerical methods; Antenna theory; Single antennas

References

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      • D. Yau , N.V. Shuley . Numerical analysis of an aperture coupledmicrostrip patch antennas using mixed potential integral equations and compleximages. J. Electromagn. Waves Appl. , 723 - 724
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