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Improving efficiencies of superdirective arrays of monopoles over lossy groundplanes by using superconducting disc overlays

Improving efficiencies of superdirective arrays of monopoles over lossy groundplanes by using superconducting disc overlays

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Published

Electrically small perfectly conducting superdirective monopole arrays above lossy metal groundplanes are analysed at 500 MHz using a moment method incorporating Sommerfeld terms. It is shown that significant improvements in efficiency are obtained when small perfectly conducting discs, which can be realised using high-temperature superconductors, are attached to the monopole bases, compared with monopoles being directly connected to groundplanes.

Inspec keywords: monopole antenna arrays; integral equations; antenna radiation patterns; directive antennas; method of moments; high-temperature superconductors

Other keywords: lossy metal groundplanes; high-temperature superconductors; 500 MHz; electrically small perfectly conducting arrays; moment method; Sommerfeld terms; UHF; superdirective monopole antenna arrays; superconducting disc overlays; efficiency improvement

Subjects: Integral equations (numerical analysis); Antenna arrays; Antenna theory; Other superconducting material applications and devices

http://iet.metastore.ingenta.com/content/journals/10.1049/ip-map_19952358
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