Optical-fiber communication systems utilizing incoherent light sources such as light-emitting diodes require the use of multimode waveguides to insure efficient excitation of the guide.
Mode division multiplexed optical transmission enabled by all-fiber mode multiplexer is investigated. The proposed all-fiber mode multiplexer is composed of consecutive mode selective couplers.
We review mode-division multiplexing highlighting the possibilities of weakly-coupled systems: hybrid optical/digital mode separation and reduced receiver complexity.
We demonstrate one of the first experiments of optical transmission based on mode-division multiplexing over a few-mode optical fiber.
Data transmission over multi-mode fibers has the potential to considerably increase the capacity limit of single-mode fibers by exploiting the spatial dimension.
Spatial dimension exploitation in multimode fiber is an attractive approach to increase the throughput and meet the need of future networks.
Data transmission over multi-mode fibers (MMF) has the potential to increase considerably the capacity limit of singlemode fibers (SMF) by exploiting the spatial dimension.
Data transmission over multi-mode fibers (MMF) has the potential to increase considerably the capacity limit of singlemode fibers (SMF) by exploiting the spatial dimension.
We report a 2 GHz mode locked vertical external cavity surface emitting laser using a hybrid metal-metamorphic Bragg mirror on the gain structure with a resonant two quantum wells GaInNAs semicondu
In this paper we present the first demonstration of a InP/InAs Quantum Dash based Mode Locked Laser (MLL) compatible with uncooled operation.
