Power flow in multimode step-index plastic photonic crystal fibers
Date
2021-08-21Authors
Savović, Svetislav
Kovačević, Milan
Drljača, Branko
Simović, Ana
Kuzmanović, Ljubica
Djordjevich, Alexandar
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Show full item recordAbstract
We investigate the state of mode coupling in a multimode step-index plastic photonic crystal fiber
(SI PPCF) with a solid-core by solving the time-independent power flow equation. For various
arrangements of air-holes, and therefore a different numerical apertures (NAs), as well as a
different widths of launch beam distribution, the length Lc for achieving equilibrium mode distribution (EMD) and length zs at which a steady state distribution (SSD) is established are
determined for such fiber. We show that the larger the air holes in the cladding (higher NA), the
longer length of the fiber it takes for the modal distribution-transients to reach their equilibrium
and steady state. This is as a consequence of the greater participation rate of higher-order modes
in higher-aperture photonic-crystal fibers. In contrary, in the case of a wide launch that excites
more guiding modes, these lengths shorten. This is because the energy of a wide launch beam is
more uniformly distributed among guided modes in the fiber, thus the EMD and SSD are reached
at shorter distances than for a narrow launch beam. Such information is of interest for application
of multimode photonic crystal fibers in telecommunication and fiber optic sensors.
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