Wa’il A. Godaymi Al-Tumah scite author profile

The novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) caused a pandemic of coronavirus disease 2019 (COVID-19) which represents a global public health crisis. Based on recent published studies, this review discusses current evidence related to the transmission, clinical characteristics, diagnosis, management and prevention of COVID-19. It is hoped that this review article will provide a benefit for the public to well understand and deal with this new virus, and give a reference for future researches.

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A modified E-shaped microstrip patch antenna for dual band in x- and ku-bands applications

Al-Tumah

Shaaban

Ahmed

2019

J. Phys.: Conf. Ser.

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In this paper, different shapes of an E-patch microstrip antenna designed and operating at x- and ku-bands by using High Frequency Structure Simulator (HFSS) software version 13. The finite element method used to solve electromagnetic values. The dielectric substrate material is Arlon AD320A (tm) with dielectric constant (εr = 3.2) and thickness h=1.79 mm used in this design. The new designs including modifying and slotting E-patch increased the gain of proposed antennas and provided a dual band frequency in x- and ku- bands. The return loss, voltage standing wave ratio (VSWR) and radiation patterns are evaluated.

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Designing a Microstrip Patch Antenna in Part of Ultra-Wideband Applications

2020

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In this work, a simulated study was carried out for designing a novel spiral rectangular patch of microstrip antenna that is used in ultra-wideband applications by using a high frequency structure simulator software (HFSS). A substrate with dielectric constant of 4.4 and height 2.10 mm (commercial substrate height available is about 0.8-1.575 mm) has been used for the design of the proposed antenna. The design basis for enhancing bandwidth in the frequency range 6.63 - 10.93 GHz is based on increasing the edge areas that positively affect the antenna's efficiency. This design makes the designed antenna cost less by reducing the area of the patch. It has been noticed that the bandwidth of the antenna under this study is increasing to 4.30 GHz or 61% compared with 3.6% for the standard rectangular microstrip antenna with the same dimensions of the proposed antenna. The antenna also maintains the voltage standing wave ratio of 1.09 at resonant frequency 7.07 GHz, return loss -27.07 dB, and the amount of impedance in real and imaginary parts 51.5Ω and 3.3Ω, respectively.

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Design, simulation and measurement of triple band annular ring microstrip antenna based on shape of crescent moon

Al-Tumah

Shaaban

Tahir

2020

AEU - International Journal of Electronics and Communications

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