Galia Ghazi scite author profile

Within the last two decades, terahertz systems have become a well-established tool in scientific laboratories and industrial research and development departments. Unlike the methods of pulsed terahertz radiation that mainly rely on ultrafast optical technology, the technology behind continuous-wave terahertz sources and detectors has a long history involving many different types of technical schemes. The intent is to provide a brief review of the continuous-wave terahertz systems that are based on photomixing and current application trends in the field of terahertz technology.

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Digitized Metamaterial Absorber-Based Compressive Reflector Antenna for High Sensing Capacity Imaging

Molaei

Heredia-Juesas

Ghazi

et al. 2019

IEEE Access

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Conventional multistatic radar systems using microwave and millimeter-wave (mm-wave) frequencies seek to reconstruct the target in the imaging domain, employing many transmitting and receiving antenna elements. These systems are suboptimal, in that they do not take into consideration the large mutual information existing between the measurements. This work reports a new mm-wave radar system for high sensing capacity applications. The system is composed of a Compressive Reflector Antenna (CRA), whose surface is specially tailored by digitized Metamaterial Absorbers (MMAs). The MMA elements are designed to have a highly frequency-dispersive response in the operating band of the radar. This enables the CRA to create highly uncorrelated spatial and spectral codes in the imaging region. A semi-analytic method based on Drude-Lorentz model is used to approximate the reflection response of the MMAs. The performance of the developed radar system is evaluated in active mm-wave sensing systems by imaging PEC scatterers and an extended human-size model in the near-field of the radar. A computational method based on physical optics is established for solving the numerical examples. For reconstructing the image using compressive sensing techniques, a norm-1 regularized iterative algorithm based on the Alternating Direction Method of Multipliers (ADMM) and a Nesterov-based algorithm (NESTA) were applied.Index Terms-Compressive reflector antenna, millimeter-wave imaging, metamaterial absorber, coded aperture.

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Modal Analysis of Extraordinary Transmission Through an Array of Subwavelength Slits

Ghazi¹,

Shahabadi²

2008

PIER

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Abstract-Using eigen-modes of a one-dimensional array of slits together with a mode matching technique, we investigate the extraordinary transmission through a subwavelength grating. The analysis serves to determine the contribution of various transmission mechanisms to the overall transmission. It is shown that surface plasmon polaritons excited on the input interface of the grating at certain wavelengths can absorb the incident power and thus reduce the total transmitted power. We also examine the characteristics of the different types of modes involved in the transmission through a metallic grating.

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High capacity imaging using an array of compressive reflector antennas

Molaei

Ghazi

Heredia-Juesas

et al. 2017

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Modeling and experimental validation for 3dmm-wave radar imaging

Ghazi¹

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Galia Ghazi

Review of photomixing continuous-wave terahertz systems and current application trends in terahertz domain

Digitized Metamaterial Absorber-Based Compressive Reflector Antenna for High Sensing Capacity Imaging

Modal Analysis of Extraordinary Transmission Through an Array of Subwavelength Slits

High capacity imaging using an array of compressive reflector antennas

Modeling and experimental validation for 3dmm-wave radar imaging

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