空气-二氧化硅微结构波导的倏逝场分析[用于生物传感应用]

B. Gibson, J. Love, L. Cahill, P. Dower, D. Elton
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引用次数: 7

摘要

本文对空气-二氧化硅微结构中瞬变模态功率和孔洞中模态功率的比例进行了全面的分析和数值研究。对于四层结构,当波导半宽保持不变,且a在0 ~ s/2之间变化时,周期波导的2区和4区模态功率比具有核心区的波导的模态功率大。这是核心区对模态产生围合效应的结果。研究还确定,通过在4层结构中添加另一个空气-二氧化硅层,在所有a值下,孔中的倏逝功率和功率的比例都增加了。对于生物传感应用,使孔中的功率和倏逝功率最大化的周期性6层空气-二氧化硅微观结构的理想波导特性是具有尽可能大的机械尺寸(即大孔)。
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Evanescent field analysis of air-silica microstructure waveguides [for biosensing applications]
A comprehensive analytical and numerical study of the fraction of evanescent modal power and the fraction of modal power in the holes has been presented for air-silica microstructures. It was shown for the 4-layer structures, that when the waveguide half width was kept constant and a was varied between 0 and s/2, the fraction of modal power in regions 2 and 4 was greater in the case of the periodic waveguide than the waveguide with the core region. This was a result of the core region have a confining effect on the mode. It was also determined that by adding another air-silica layer to the 4-layer structure, the fraction of evanescent power and power in the holes was increased for all values of a So, the ideal waveguide characteristics of a periodic 6-layer air-silica microstructure that maximises the power in the holes and evanescent power for biosensing applications is to have a as large as mechanically possible (i.e. large holes).
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