M.A. Richard scite author profile

The recent discovery of high-temperature superconductors (HTS's) has generated a substantial amount of interest in microstrip antenna applications. However, the high permittivity of substrates compatible with HTS causes difficulty in feeding such antennas because of the high patch edge impedance. In this paper, two methods for feeding HTS microstrip antennas at K and Ka-band are examined. Superconducting microstrip antennas that are directly coupled and gap-coupled to a microstrip transmission line have been designed and fabricated on lanthanum aluminate substrates using Y-Ba-Cu-0 superconducting thin films. Measurements from these antennas, including input impedance, bandwidth, efficiency, and patterns, are presented and compared with published mdels. The measured results demonstrate that usable antennas can be constructed using either of these architectures, although the antennas suffer from narrow bandwidths. In each case, the HTS antenna shows a substantial improvement over an identical antenna made with normal metals.

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State of the Art 58W, 38% PAE X-Band AlGaN/GaN HEMTs Microstrip MMIC Amplifiers

Piotrowicz¹,

Morvan²,

Aubry³

et al. 2008

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Performance of TlCaBaCuO 30 GHz 64 element antenna array

Lewis

Koepf

Bhasin

et al. 1993

IEEE Trans. Appl. Supercond.

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Performance of a four-element Ka-band high-temperature superconducting microstrip antenna

Richard

Bhasin

Gilbert

et al. 1992

IEEE Microw. Guid. Wave Lett.

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Performance of a k‐band superconducting annular ring antenna

Richard

Bhasin

Lee

et al. 1992

Micro & Optical Tech Letters

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M.A. Richard

Superconducting microstrip antennas: an experimental comparison of two feeding methods

State of the Art 58W, 38% PAE X-Band AlGaN/GaN HEMTs Microstrip MMIC Amplifiers

Performance of TlCaBaCuO 30 GHz 64 element antenna array

Performance of a four-element Ka-band high-temperature superconducting microstrip antenna

Performance of a k‐band superconducting annular ring antenna

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