Litcius/Paper detail

Spin–orbit coupling suppressed high-capacity dual-step-index ring-core OAM fiber

Quanchao Lu, Jiajing Tu, Zhuo Wang, Shecheng Gao, Ji Zhou, Qinghua Xiao, Lei Shen, Xiaobo Lan, Weiping Liu, Zhaohui Li

2022Optics Letters21 citationsDOI

Abstract

We design and fabricate a dual-step-index ring-core fiber (RCF) for orbital angular momentum (OAM) mode transmission. It has been proven that the proposed novel, to the best of our knowledge, dual-step-index ring-core structure can suppress the spin–orbit coupling and cut off the radial higher-order modes when the mode number becomes very large. In experiments, we demonstrate that the fabricated fiber can support OAM 8,1 with the interferometric method, where four higher-order mode groups are weakly-coupled. We also measure the loss of each mode according to the cut-back method and the loss can achieve <0.3 dB/km for the OAM modes with an order from | l | = 1 to | l | = 5. The exploration of this novel optical fiber structure may provide ideas and knowledge for the improvement of the optical fiber communication capacity.

Topics & Concepts

OpticsMode volumeGraded-index fiberOptical fiberCoupling (piping)Polarization-maintaining optical fiberInterferometryFiberAngular momentumMaterials scienceMode (computer interface)Single-mode optical fiberDispersion-shifted fiberCoupling lossCoupled mode theoryMode couplingFiber optic sensorPlastic optical fiberPhysicsPhotonic-crystal fiberOptical communicationMeasure (data warehouse)OptoelectronicsDouble-clad fiberFiber optic splitterMulti-mode optical fiberLong-period fiber gratingInsertion lossWavelength-division multiplexingOrbital Angular Momentum in OpticsPhotonic Crystal and Fiber OpticsRandom lasers and scattering media