Optical characteristics of femtosecond laser micromachined periodic structures in Si  100

Mohamed Elbandrawy; Mool C. Gupta

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Optical characteristics of femtosecond laser micromachined periodic structures in Si 100

机译：Si <100>中飞秒激光微加工周期性结构的光学特性

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A frequency doubled Ti:sapphire laser of 400 nm wavelength, 160 fs pulse width, and 1 kHz repetition rate, combined with a high resolution computer-controlled X-Y stage, was used to direct write periodic structures on Si <100>. Laser pulses of approx130 nJ energy were focused using an objective lens of 0.65 NA. Laser micromachining yielded lines of 700 nm width and ablation depths of 600 nm. One- and two-dimensional periodic structures of 5 and 5 X 5 (mu)m spacing were fabricated, and the structures were characterized by using optical and atomic force microscopy. The light diffraction characteristics of the periodic 1D and 2D patterns were examined. The diffraction properties of the 1D structures were highly dependent upon the light polarization orientation with respect to the micromachining direction.

机译：将400 nm波长，160 fs脉冲宽度和1 kHz重复频率的倍频Ti：蓝宝石激光器与高分辨率计算机控制的X-Y平台结合使用，可直接在Si <100>上写入周期性结构。使用0.65 NA的物镜聚焦约130 nJ能量的激光脉冲。激光微加工产生的线宽为700 nm，烧蚀深度为600 nm。制作了间隔为5和5 X 5μm的一维和二维周期性结构，并通过光学和原子力显微镜对结构进行了表征。检查了周期性1D和2D图案的光衍射特性。一维结构的衍射特性高度依赖于相对于微加工方向的光偏振取向。

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《Applied optics》 |2006年第27期|共7页
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Mohamed Elbandrawy; Mool C. Gupta;
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机译：Si <100>中飞秒激光微加工周期性结构的光学特性
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Optical characteristics of femtosecond laser micromachined periodic structures in Si 100

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