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Abstract
A rectangular-core large-mode-area photonic crystal fiber structure has been designed based on the principle of higher order mode filtering by introducing fluorine-doped material rods in the cladding region. The proposed structure has an effective-mode area of fundamental mode (FM) as large as 2147 μm2 at 1.064 μm with nominal loss of 1.36×10−2 dB/m and 9.34 dB/m at first higher order mode (FHOM), which confirms effective single-mode operation after ∼2.14 m propagation length. The same structure offers effective-mode area of 5688 μm2 at λ=1.55 μm with confinement loss of ∼6.3×10−2 dB/m for FM and ∼20.23 dB/m for FHOM. The loss of FHOM is above 8 dB/m from λ=1 μm to λ=1.6 μm with very small loss in FM, which offers extended single-mode operation within a broad spectral range.
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