Photonic bandgap properties of void-based body-centered-cubic photonic crystals in polymer
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Zhou, Guangyong
Ventura, Michael James
Gu, Min
Matthews, Aaron
Kivshar, Yuri
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Optical Society of America
Abstract
We report on the fabrication and characterization of void-based
body-centered-cubic (bcc) photonic crystals in a solidified transparent
polymer by the use of a femtosecond laser-driven microexplosion method.
The change in the refractive index in the region surrounding the void dots
that form the bcc structures is verified by presenting confocal microscope
images, and the bandgap properties are characterized by using a Fourier
transform infrared spectrometer. The effect of the angle of incidence on the
photonic bandgaps is also studied. We observe multiple stop gaps with a
suppression rate of the main gap of 47% for a bcc structure with a lattice
constant of 2.77 μm, where the first and second stop gaps are located at 3.7
μm and 2.2 μm, respectively. We also present a theoretical approach to
characterize the refractive index of the material for calculating the bandgap
spectra, and confirm that the wavelengths of the observed bandgaps are in
good correlation with the analytical predictions.
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Optics Express 13.12 (2005): 4390-4395
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Optics Express
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