Juri Snijders scite author profile

Juri Snijders

3Publications

28Citation Statements Received

56Citation Statements Given

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Eindhoven University of Technology

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InP-based two-dimensional photonic crystals filled with polymers

Heijden

Carlström

Snijders

et al. 2006

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Polymer filling of the air holes of indium-phosphide-based two-dimensional photonic crystals is reported. After infiltration of the holes with a liquid monomer and solidification of the infill in situ by thermal polymerization, complete filling is proven using scanning electron microscopy. Optical transmission measurements of a filled photonic crystal structure exhibit a redshift of the air band, confirming the complete filling.

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Two-dimensional photonic crystals from semiconductor material with polymer filled holes

Heijden

Kjellander

Carlström

et al. 2006

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Polymer filling of the air holes of indiumphosphide based two-dimensional photonic crystals is reported. The filling is performed by infiltration with a liquid monomer and solidification of the infill in situ by thermal polymerization. Complete hole filling is obtained with infiltration under ambient pressure. This conclusion is based both on crosssectional scanning electron microscope inspection of the filled samples as well as on optical transmission measurements.

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InP-based planar photonic crystals infiltrated with solid polymers and liquid crystals

Heijden

Kjellander

Carlström

et al. 2006

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The filling is reported of the air holes of an InP-based two-dimensional photonic crystal with solid polymer and with liquid crystal 5CB. The polymer filling is obtained by thermal polymerization of an infiltrated liquid monomer, trimethylolpropane triacrylate. The filling procedure for both the monomer and liquid crystal relies on the capillary action of the liquid inside the ~ 200 nm diameter and > 2.5 µm deep air holes. The solid polymer infiltration result was directly inspected by cross-sectional scanning electron microscopy. It was observed that the holes are fully filled to the bottom. The photonic crystals were optically characterized by transmission measurements around the 1.5 µm wavelength band both before and after infiltration. The observed high-frequency band edge shifts are consistent with close to 100% filling, for both the polymer and the liquid crystal. No differences were observed for filling under vacuum or ambient, indicating that the air diffuses efficiently through the liquid infiltrates, in agreement with estimates based on the capillary pressure rise.

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Juri Snijders

InP-based two-dimensional photonic crystals filled with polymers

Two-dimensional photonic crystals from semiconductor material with polymer filled holes

InP-based planar photonic crystals infiltrated with solid polymers and liquid crystals

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