Ronald K. Loo scite author profile

By covering a metal ground plane with a periodic surface texture, we can alter its electromagnetic properties. The impedance of this metasurface can be modeled as a parallel resonant circuit, with sheet inductance L, and sheet capacitance C. The reflection phase varies with frequency from + to , and crosses through 0 at the LC resonance frequency, where the surface behaves as an artificial magnetic conductor. By incorporating varactor diodes into the texture, we have built a tunable impedance surface, in which an applied bias voltage controls the resonance frequency, and the reflection phase. We can program the surface to create a tunable phase gradient, which can electronically steer a reflected beam over + 40 in two dimensions, for both polarizations. We have also found that this type of resonant surface texture can provide greater bandwidth than conventional reflectarray structures. This new electronically steerable reflector offers a low-cost alternative to a conventional phased array.

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Stratifying Risk of Urinary Tract Malignant Tumors in Patients With Asymptomatic Microscopic Hematuria

Loo

Lieberman

Slezak

et al. 2013

Mayo Clinic Proceedings

132

119

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Association of Hematuria on Microscopic Urinalysis and Risk of Urinary Tract Cancer

et al. 2011

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A tunable impedance surface performing as a reconfigurable beam steering reflector

Sievenpiper

Schaffner

Loo

et al. 2002

IEEE Trans. Antennas Propagat.

140

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We describe a reconfigurable microwave surface that performs as a new kind of beam steering reflector. The surface is textured with an array of tiny resonators, which provide a frequency-dependent surface impedance. By tuning the individual resonators, the surface impedance, and thus the reflection coefficient phase, can be varied as a function of position across the reflector. Using a reflection phase gradient, the surface can steer a reflected beam. As an example, we have built a simple mechanically tuned surface in which physical motion of only 1 100 wavelength generates a sufficient phase gradient to steer a reflected beam by 16 degrees. To steer to greater angles, the surface can be configured as an artificial microwave grating, capable of 38 degrees of beam steering. The concept of the tunable impedance surface demonstrated here can be extended to electrically controlled structures, which would permit more elaborate reflection phase patterns, and provide more capabilities, such as the ability to focus or steer multiple beams.

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California Men's Health Study (CMHS): a multiethnic cohort in a managed care setting

et al. 2006

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Ronald K. Loo

Two-dimensional beam steering using an electrically tunable impedance surface

Stratifying Risk of Urinary Tract Malignant Tumors in Patients With Asymptomatic Microscopic Hematuria

Association of Hematuria on Microscopic Urinalysis and Risk of Urinary Tract Cancer

A tunable impedance surface performing as a reconfigurable beam steering reflector

California Men's Health Study (CMHS): a multiethnic cohort in a managed care setting

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