Title of article
Design and analysis of slow light regime in silicon carbide 2D photonic crystal waveguides
Author/Authors
Pourali، نويسنده , , Elyar and Moravvej-Farshi، نويسنده , , Mohammad Kazem and Ebnali-Heidari، نويسنده , , Majid، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
7
From page
10
To page
16
Abstract
We theoretically demonstrate the slow light capabilities of 2D silicon carbide based photonic crystal W1 waveguides (SiC-PhC-W1Ws) with numerical simulations. The PhC is assumed to be created by devising air-holes with hexagonal lattice in a standard SiC substrate having oscillator type ordinary refractive index. Numerical simulations show that by means of selective optofluidic infiltration and varying the air-holes radii, SiC-PhC-W1Ws are capable of slowing light down by about 473 times while their group velocity dispersions are tailored to near zero values. Our numerical study also suggests the possibility of slow-light guiding with ng × Δλ/λc values as high as 0.42 in SiC-PhC-W1Ws at optical telecommunications wavelengths.
Keywords
Dispersive material , Photonic Crystal Waveguides , silicon carbide , Slow light regime , dispersion engineering
Journal title
Infrared Physics & Technology
Serial Year
2014
Journal title
Infrared Physics & Technology
Record number
2376490
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