We present an overview of different mode-division multiplexing fiber technologies engineered to provide tunable microwave signal processing, including signal filtering and optical beamforming for phased-array antennas. The exploitation of both the space and wavelength dimensions brings advantages in terms of increased compactness, flexibility and versatility
Multimode Fiber (MMF) is an established choice for the high-speed backbones in Local Area Networks (...
Space-division multiplexing optical fibers can provide not only parallel channel transmission but al...
Microwave to mm-wave radio carriers are commonly employed for creating high-capacity picocell wirele...
Beyond high-capacity transmission, space-division multiplexing fibers can be engineered to provide d...
Despite Space division multiplexing fibers were initially envisioned as pure transmission media, the...
We review the introduction of the space dimension into fiber-based technologies to implement compact...
We report the implementation of tunable microwave signal processing based on sampled true time delay...
We present a novel double-clad step-index few-mode fiber that operates as a five-sampled tunable tru...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Microwave Photonics (MWP) is an emerging field, in which radio frequency (RF) signals are generated,...
The addition of the spatial dimension to the portfolio of optical multiplexing technologies, widely ...
The revolution in microwave technology paralleled by the boom in photonics has led to a convergence ...
Microwave photonic (MWP) systems exploit the advantages of photonics, especially with regards to ult...
The low-loss, electromagnetic interference free, and wide bandwidth microwave signal transport over ...
Microwave photonics(MWP)is an emerging issue concering the interaction between microwaves and optica...
Multimode Fiber (MMF) is an established choice for the high-speed backbones in Local Area Networks (...
Space-division multiplexing optical fibers can provide not only parallel channel transmission but al...
Microwave to mm-wave radio carriers are commonly employed for creating high-capacity picocell wirele...
Beyond high-capacity transmission, space-division multiplexing fibers can be engineered to provide d...
Despite Space division multiplexing fibers were initially envisioned as pure transmission media, the...
We review the introduction of the space dimension into fiber-based technologies to implement compact...
We report the implementation of tunable microwave signal processing based on sampled true time delay...
We present a novel double-clad step-index few-mode fiber that operates as a five-sampled tunable tru...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Microwave Photonics (MWP) is an emerging field, in which radio frequency (RF) signals are generated,...
The addition of the spatial dimension to the portfolio of optical multiplexing technologies, widely ...
The revolution in microwave technology paralleled by the boom in photonics has led to a convergence ...
Microwave photonic (MWP) systems exploit the advantages of photonics, especially with regards to ult...
The low-loss, electromagnetic interference free, and wide bandwidth microwave signal transport over ...
Microwave photonics(MWP)is an emerging issue concering the interaction between microwaves and optica...
Multimode Fiber (MMF) is an established choice for the high-speed backbones in Local Area Networks (...
Space-division multiplexing optical fibers can provide not only parallel channel transmission but al...
Microwave to mm-wave radio carriers are commonly employed for creating high-capacity picocell wirele...
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