A generic antenna array design approach through multi-objective optimization is adopted to design a non-uniform optical thinned array (TA) satisfying a desired far-field pattern mask and minimizing the number of radiating elements. The proposed optical TA is integrated with a silicon photonic beam-forming network (BFN) made of a mesh of tuneable Mach-Zehnder interferometer to implement a self-adaptive beam transmitter/receiver for free-space optical (FSO) systems. Experimental results demonstrate the beam steering and shaping capability of the proposed architecture, which self-configures without any need for pre-calibration.
Adaptive Optical Thinned Antenna Array Controlled by an Integrated Photonic Processor
SeyedinNavadeh, SeyedMohammad;Milanizadeh, Maziyar;Zanetto, Francesco;Martinez, Andres;Morichetti, Francesco;Melloni, Andrea
2024-01-01
Abstract
A generic antenna array design approach through multi-objective optimization is adopted to design a non-uniform optical thinned array (TA) satisfying a desired far-field pattern mask and minimizing the number of radiating elements. The proposed optical TA is integrated with a silicon photonic beam-forming network (BFN) made of a mesh of tuneable Mach-Zehnder interferometer to implement a self-adaptive beam transmitter/receiver for free-space optical (FSO) systems. Experimental results demonstrate the beam steering and shaping capability of the proposed architecture, which self-configures without any need for pre-calibration.| File | Dimensione | Formato | |
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Adaptive_Optical_Thinned_Antenna_Array_Controlled_by_an_Integrated_Photonic_Processor.pdf
embargo fino al 01/09/2025
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