Add to ORKGFew-mode fibers offer high optical power handling capability that enables improvement of the RF gain, noise figure and dynamic range of analog fiber-optic links. We demonstrate the advantages in both single-channel and WDM transmission over few-mode fiber links
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...
We present design strategies for weakly-coupled few-mode fibers and their representative application...
Department of Electrical EngineeringDepartment of Electronic and Information Engineerin
Few-mode fibers can increase optical power throughput, arguably the most important parameter that de...
As a new transmission medium, few-mode fibers can increase the degree of freedom and suppress nonlin...
The fibre-optic microwave photonic link has become one of the basic building blocks for microwave ph...
Space-division multiplexing optical fibers can provide not only parallel channel transmission but al...
We demonstrate the first FMF-based analog fiber-optic link to increase link gain and reduce intermod...
Microwave photonic links (MPLs) have long been considered as an excellent way for radio frequency (R...
We review the performances of few-mode in-line fiber amplifiers for mode division multiplexed transm...
We show that quasi-single-mode transmission in few-mode fibers (FMFs) can reduce the number of spans...
We demonstrate three possible scenarios for upgrading current single-mode transmission networks with...
We experimentally investigate high-capacity few-mode fiber transmission for short and medium-haul op...
We present a novel double-clad step-index few-mode fiber that operates as a five-sampled tunable tru...
Despite Space division multiplexing fibers were initially envisioned as pure transmission media, the...
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...
We present design strategies for weakly-coupled few-mode fibers and their representative application...
Department of Electrical EngineeringDepartment of Electronic and Information Engineerin
Few-mode fibers can increase optical power throughput, arguably the most important parameter that de...
As a new transmission medium, few-mode fibers can increase the degree of freedom and suppress nonlin...
The fibre-optic microwave photonic link has become one of the basic building blocks for microwave ph...
Space-division multiplexing optical fibers can provide not only parallel channel transmission but al...
We demonstrate the first FMF-based analog fiber-optic link to increase link gain and reduce intermod...
Microwave photonic links (MPLs) have long been considered as an excellent way for radio frequency (R...
We review the performances of few-mode in-line fiber amplifiers for mode division multiplexed transm...
We show that quasi-single-mode transmission in few-mode fibers (FMFs) can reduce the number of spans...
We demonstrate three possible scenarios for upgrading current single-mode transmission networks with...
We experimentally investigate high-capacity few-mode fiber transmission for short and medium-haul op...
We present a novel double-clad step-index few-mode fiber that operates as a five-sampled tunable tru...
Despite Space division multiplexing fibers were initially envisioned as pure transmission media, the...
Using a novel optical frequency multiplication technique, microwave signal carriers up to 20-GHz are...
We present design strategies for weakly-coupled few-mode fibers and their representative application...
Department of Electrical EngineeringDepartment of Electronic and Information Engineerin