Title :
Long-Period Fiber Gratings for Mode Coupling in Mode-Division-Multiplexing Systems
Author :
Askarov, Daulet ; Kahn, Joseph M.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., Stanford, CA, USA
Abstract :
In mode-division-multiplexing systems, multi-input multi-output (MIMO) equalization is used to compensate for linear impairments, including modal dispersion (MD) and modal crosstalk. The MIMO equalizer memory length depends on the group delay (GD) spread arising from MD. The GD spread arising from MD can be significantly reduced by introducing strong mode coupling via mode scramblers. We study the design of such mode scramblers implemented as long-period multimode fiber gratings for systems using D = 12 modes (six spatial modes). By optimizing the grating chirp function, we minimize the mode-dependent loss (MDL) of the grating while ensuring full intergroup mode coupling. We find a design yielding MDL and mode-averaged loss in the C band not exceeding 0.36 and 0.45 dB, respectively. We also verify the effect of such mode scramblers on the GD scaling of a long-haul system, demonstrating that the scramblers reduce the scaling of GD spread with length from a linear to a square-root dependence, as expected in the strong coupling regime.
Keywords :
MIMO communication; diffraction gratings; equalisers; minimisation; multiplexing; optical communication equipment; optical crosstalk; optical fibre dispersion; GD scaling reduction; MDL minimization; MIMO equalizer memory length; group delay; long period fiber grating; long-haul system; modal crosstalk; modal dispersion; mode coupling; mode division multiplexing system; mode-dependent loss minimization; multiinput multioutput equalization; square-root dependence; Couplings; Fiber gratings; Optical fiber devices; Optical fiber dispersion; Optical fiber polarization; Optical fiber theory; Propagation constant; Fiber gratings; Optical fibers; fiber gratings; mode coupling; multiplexing; optical fibers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2459070
