Two-dimensional optical architectures for the receive mode of phased-array antennas

Abstract: We propose and experimentally demonstrate two optical architectures that process the receive mode of a p x p element phased-array antenna. The architectures are based on free-space propagation and switching of the channelized optical carriers of microwave signals. With the first architecture a direct transposition of the received signals in the optical domain is assumed. The second architecture is based on the optical generation and distribution of a microwave local oscillator matched in frequency and directio… Show more

“…One type of solution involves switching between delay sections of different lengths. [3][4][5][6][7][8] These techniques require multiple switching between different path lengths, which is a source of loss and has limited speed. Acousto-optics have also been used for switching.…”

Continuously variable pulse true-time delay system incorporating an acousto-optic Bragg cell and an electro-optic modulator

“…One type of solution involves switching between delay sections of different lengths. [3][4][5][6][7][8] These techniques require multiple switching between different path lengths, which is a source of loss and has limited speed. Acousto-optics have also been used for switching.…”

Continuously variable pulse true-time delay system incorporating an acousto-optic Bragg cell and an electro-optic modulator

“…On the processing side, the appealing feature is the wideband capability of optics. Development of various architectures for radio-frequency (RF) waveform generation, 1 filtering, 2 true-time delay lines, 3 analog-to-digital conversion, 4 and spectral analysis 5 is in progress. If most architectures achieve wideband processing, i.e., typically over 10 GHz or more, few can, at the same time, give a spectral resolution in the megahertz (MHz) range.…”

Wideband and high-resolution coherent optical transients with a frequency-agile laser oscillator

All Optical Processing Of Microwave Functions