Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of multimode fibre networks. Mode group diversity multiplexing integrates a variety of independent broadband services in a single fibre infrastructure. Optical frequency multiplying enables to carry microwave signals which considerably exceed the bandwidth of the multimode fibre network. These techniques create versatile easy-to-install multimode (polymer) optical fibre networks integrating broadband wirebound and wireless services
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
Using a novel optical frequency multiplication technique, microwave signal carriers exceeding 20-GHz...
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Multiple broadband services are carried independently in a highly multimode polymer optical fibre ne...
Abstract: Multiple broadband services are carried independently in a highly multimode polymer optica...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
Using a novel optical frequency multiplication technique, microwave signal carriers exceeding 20-GHz...
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Novel optical signal processing techniques are reported to surmount the bandwidth restrictions of mu...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Many different services with widely ranging signal characteristics are to be supported in in-buildin...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Short-range networks such as in-building networks and first-mile access networks have to support an ...
Multiple broadband services are carried independently in a highly multimode polymer optical fibre ne...
Abstract: Multiple broadband services are carried independently in a highly multimode polymer optica...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
By selectively launching and detecting separate mode groups in a highly multimode (polymer) optical ...
Using a novel optical frequency multiplication technique, microwave signal carriers exceeding 20-GHz...
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...