Optical Nonlinearity of Wide-Bandgap Semiconductor and Insulator Nanoparticles in the Visible and Near-Infrared Regions of the Spectrum

O. P. Mikheeva; A. I. Sidorov

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Optical Nonlinearity of Wide-Bandgap Semiconductor and Insulator Nanoparticles in the Visible and Near-Infrared Regions of the Spectrum

机译：光谱的可见和近红外区域中的宽带隙半导体和绝缘体纳米粒子的光学非线性

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Experimental results on the interaction of nanosecond optical pulses at the wavelength of 0.53, 0.65, and 1.06 μm with nanoparticles of crystalline materials with a bandgap of 3 to 7 eV are reported. It is shown that the threshold for the nanoparticles to exhibit a nonlinear response can be as low as 0.05 to 0.5 nJ/cm~2 and that the response can manifest itself as limitation of the radiation or as blooming of the medium. A theoretical model is proposed, which associates these effects with single-photon generation of charge carriers from deep impurity levels produced by defects located near the nanoparticle's surface.

机译：报道了波长为0.53、0.65和1.06μm的纳秒光脉冲与带隙为3至7 eV的晶体材料纳米粒子相互作用的实验结果。结果表明，纳米颗粒表现出非线性响应的阈值可低至0.05至0.5 nJ / cm〜2，并且该响应可表现为辐射的限制或介质的起霜。提出了一种理论模型，该模型将这些效应与由位于纳米粒子表面附近的缺陷产生的深杂质水平产生的单光子电荷载流子相关。

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《Technical physics》 |2004年第6期|共6页
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O. P. Mikheeva; A. I. Sidorov;
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Optical Nonlinearity of Wide-Bandgap Semiconductor and Insulator Nanoparticles in the Visible and Near-Infrared Regions of the Spectrum

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