OAM Modes in Optical Fibers for Next Generation Space Division Multiplexing (SDM) Systems

Abstract: Due to the renewed demand on data bandwidth imposed by the upcoming capacity crunch, optical communication (research and industry) community has oriented their effort to space division multiplexing (SDM) and particularly to mode division multiplexing (MDM). This is based on separate/independent and orthogonal spatial modes of optical fiber as data carriers along optical fiber. Orbital Angular Momentum (OAM) is one of the variants of MDM that showed promising features including the efficient enhancement of capa… Show more

“…SDM relies on multiplexing spatially separated beam modes such as linearly polarized (LP) modes [173][174][175] and OAM modes [176][177][178]. This is made possible by orthogonality, transverse phase structure, and a helical/twisted phase front of such modes.…”

Generation of Photon Orbital Angular Momentum and Its Application in Space Division Multiplexing

“…SDM relies on multiplexing spatially separated beam modes such as linearly polarized (LP) modes [173][174][175] and OAM modes [176][177][178]. This is made possible by orthogonality, transverse phase structure, and a helical/twisted phase front of such modes.…”

Generation of Photon Orbital Angular Momentum and Its Application in Space Division Multiplexing

Design and Performance Analysis of a Novel Hoop-Cut SPR-PCF Sensor for High Sensitivity and Broad Range Sensing Applications

Design of Novel Reciprocal Inverse Graded Index Fiber (R-IGIF) For OAM-SDM communication Systems