Cecile Jung-Kubiak scite author profile

In this article, we propose a hybrid electromechanical scanning lens antenna array architecture suitable for the steering of highly directive beams at submillimeter wavelengths with fieldof-views (FoV) of ±25°. The concept relies on combining electronic phase shifting of a sparse array with a mechanical translation of a lens array. The use of a sparse-phased array significantly simplifies the RF front-end (number of active components, routing, thermal problems), while the translation of a lens array steers the element patterns to angles off-broadside, reducing the impact of grating lobes over a wide FoV. The mechanical translation required for the lens array is also significantly reduced compared to a single large lens, leading to faster and low-power mechanical implementation. In order to achieve wide bandwidth and large steering angles, a novel leaky wave lens feed concept is also implemented. A 550-GHz prototype was fabricated and measured demonstrating the scanning capabilities of the embedded element pattern and the radiation performance of the leaky wave fed antenna.

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Measurement of Silicon Micromachined Waveguide Components at 500–750 GHz

Reck

Jung-Kubiak

Gill

et al. 2014

IEEE Trans. THz Sci. Technol.

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A Multistep DRIE Process for Complex Terahertz Waveguide Components

Jung-Kubiak

Reck

Siles

et al. 2016

IEEE Trans. THz Sci. Technol.

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A Silicon Micromachined Eight-Pixel Transceiver Array for Submillimeter-Wave Radar

Reck

Jung-Kubiak

Siles

et al. 2015

IEEE Trans. THz Sci. Technol.

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Silicon Micromachined Canonical ${\hbox{E}}$-Plane and ${\hbox{H}}$-Plane Bandpass Filters at the Terahertz Band

Leal-Sevillano

Reck

Jung-Kubiak

et al. 2013

IEEE Microw. Wireless Compon. Lett.

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