Tailoring optical forces in waveguides through radiation pressure and electrostriction

IEEE Photonics Society Summer Topicals 2010 Pub Date : 2010-07-19 DOI:10.1109/PHOSST.2010.5553661
P. Rakich, P. Davids, Z. Wang
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引用次数: 1

Abstract

Radiation pressure is known to scale to large values in the context of micro and nano-scale photonic waveguide systems. However, little has been done to address electrostrictively induced forces, which also scale quadratically with electric field. In this paper, we perform detailed analysis of both radiation pressure and electrostricitve optical forces generated in high-index contrast optical waveguides. Through analysis of the material- and geometry-dependent design degrees of freedom associated with the electrostrictive and radiation pressure induced forces, we show that the magnitude and distribution of such forces can be tailored at the various boundaries of the waveguide system.
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通过辐射压力和电伸缩来调整波导中的光学力
众所周知,在微纳米尺度的光子波导系统中,辐射压力的尺度很大。然而,关于电致伸缩力的研究很少,电致伸缩力也与电场成二次比例。本文对高折射率反差光波导中产生的辐射压力和电致伸缩光力进行了详细的分析。通过分析与电致伸缩力和辐射压力诱导力相关的材料和几何相关的设计自由度,我们表明这些力的大小和分布可以在波导系统的各个边界处定制。
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IEEE Photonics Society Summer Topicals 2010
IEEE Photonics Society Summer Topicals 2010
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