Angular Dependence of the Second Harmonic Generation Induced by Femtosecond Laser Irradiation in Silica-Based Glasses: Variation with Writing Speed and Pulse Energy

纳米科学与工程(英文) Pub Date : 2015-07-20 DOI:10.4236/WJNSE.2015.53012

Jing Cao, B. Poumellec, F. Brisset, A. Helbert, M. Lancry

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引用次数: 13

Abstract

To control second harmonic generation (SHG) in silica-based glasses is crucial for fabricating photonic devices, such as frequency doubling waveguides. Here, we investigated SHG of laser induced nonlinear optical crystals in silica-based glasses, according to writing speed and pulse energy. We observed two regions with different probing laser polarization angular dependence: a) a well-defined cosine-like curve with period of 180° at low pulse energy (0.8 μJ) whatever the writing speed or at high pulse energy (1.4 μJ) with high writing speed (25 μm/s). This is accounted for by a well-defined texture for the nano crystals with their polar axis oriented perpendicular to the writing laser polarization; and b) a double cosine-like curve revealing a second texture of the crystals at high pulse energy (1.4 μJ) with low writing speed (5 μm/s) and with the polar axis oriented closer parallel to the writing laser polarization. Therefore, a SHG dependence on probing laser polarization angle may show high contrast by a correct choice of the writing speed and pulse energy. These results pave the way for elaboration of nonlinear optical devices.

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飞秒激光辐照在硅基玻璃中二次谐波产生的角依赖性:随写入速度和脉冲能量的变化

控制硅基玻璃中二次谐波的产生是制造倍频波导等光子器件的关键。本文根据写入速度和脉冲能量，研究了硅基玻璃中激光诱导非线性光学晶体的SHG。在低脉冲能量(0.8 μJ)和高脉冲能量(1.4 μJ)和高写入速度(25 μm/s)下，我们观察到两个探测激光偏振角依赖性不同的区域:a)在低脉冲能量(0.8 μJ)和高脉冲能量(1.4 μJ)下，周期为180°的清晰的类余弦曲线。这是由于纳米晶体具有明确的纹理，其极轴垂直于书写激光偏振;b)在高脉冲能量(1.4 μJ)、低写入速度(5 μm/s)、极轴方向更平行于写入激光偏振的情况下，双余弦曲线揭示了晶体的第二织构。因此，通过正确选择写入速度和脉冲能量，SHG对探测激光偏振角的依赖性可以显示出高对比度。这些结果为非线性光学器件的研制铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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纳米科学与工程(英文)

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103