F.A. Araiza-Sixtos , F. Solorio-Soto , E.G. Lizarraga-Medina , H. Tiznado , R. Carriles-Jaimes , J.L. Bueno-Escobedo , R. Rangel-Rojo
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引用次数: 0
摘要
在这项研究中,我们介绍了基于多层金属介质 Ru/TiO2 结构的双曲面材料的设计、制造和光学特性研究。样品采用原子层沉积技术制作,其结构设计为在 800 纳米附近有一个 Epsilon 近零点,以匹配用于研究其响应的激光波长。使用分光光度法和光谱椭偏仪对线性光学特性进行了研究。非线性响应作为入射辐照度的函数进行了研究,采用的是z-扫描技术,fs脉冲作为整个可见光波长的函数,从而确定了非线性响应的折射和吸收贡献。由于采用了高脉冲重复率,脉冲间的累积热效应可能会出现,因此,对 z 扫描技术进行修改后,就能分辨出响应中的电子和热贡献。
Multilayered Ru/TiO2 hyperbolic material for nonlinear optics
In this work we present the design, fabrication and study of the optical properties of hyperbolic materials based on multilayered metal–dielectric Ru/TiO structures. The samples were fabricated using the Atomic Layer Deposition technique, and their structure was designed to have an Epsilon Near Zero point near 800 nm to match the laser wavelength employed to study their response. The linear optical properties were studied using spectrophotometry and spectral ellipsometry. The nonlinear response was studied as a function of incident irradiance using the z-scan technique with fs pulses as a function of wavelength throughout the visible, allowing the determination of the refractive and absorptive contributions to the nonlinear response. Given that a high pulse repetition rate was employed, cumulative pulse to pulse thermal effects can be present, because of this, a modification of the z-scan technique allowed the resolution of the electronic and thermal contributions to the response.
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