Microwave and Optical Technology Letters

Papers
(The H4-Index of Microwave and Optical Technology Letters is 17. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-07-01 to 2025-07-01.)
ArticleCitations
Novel input impedance analysis of differential feed microstrip antennas using the bi‐characteristic‐impedance transmission line (BCITL) model61
High isolation and high power of 0.13 µm CMOS SPDT switch using deep‐N‐well transistors and floating‐body technique in K‐band45
Data driven surrogate modeling of horn antennas for optimal determination of radiation pattern and size using deep learning41
A frequency reconfigurable microstrip antenna with radiation and scattering state switching41
Detection of defects in composite insulators based on laser‐induced plasma combined with machine learning31
Parasitic element loaded efficient electrically small antenna for indoor wireless applications30
A dual‐band dual‐sense circularly polarized antenna based on chiral structure29
MIMO antenna performance with isolator26
Miniaturized coplanar waveguide‐fed metamaterial inspired antenna for radio frequency identification applications24
Bandwidth improvement of differential‐fed patch antenna with out‐of‐band rejection using SISL technology23
A millimeter‐wave broadband power amplifier with a tree‐like transistor structure using 0.15‐μm GaAs technology21
Design of high‐efficiency broadband power amplifier based on split‐ring resonator input matching network21
A high‐efficiency power amplifier by using harmonics control21
A dual‐band dual‐polarized shared‐aperture SIW slot antenna array with beam scanning21
A Meander Line Integrated Rectangular Tri‐Band Antenna for 5G Sub‐6GHz Applications19
Isolation enhancement of distinct element dual polarized compact MIMO antenna for 5G/WLAN application18
A novel method for obtaining gamma precoding values18
Bistatic RCS Pattern Synthesis With a Receiver–Transmitter Metasurface and a Phase Distribution Optimization Algorithm17
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