超快畸变光子材料

Оптика и спектроскопия Pub Date : 2023-01-01 DOI:10.21883/os.2023.02.55021.4443-22

М.С. Гусельников, Марина Олеговна Жукова, Сергей Александрович Козлов

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引用次数: 0

摘要

设计超快太赫兹光子器件需要在太赫兹光谱范围内具有最大非线性折射率系数n2和最小非线性响应τ稳定时间的材料。在本研究中，我们证明了在太赫兹范围内具有振动非线性的介质的比率n2/τ由介质热膨胀系数的平方和其主导拉伸振动模态频率的五次幂决定。这些发现是基于入射太赫兹辐射下介质振动特性的非线性极化响应理论。我们提供了一组液体和晶体材料的n2/τ比的估计值。根据我们的评估，α -蒎烯在太赫兹光谱范围内的n2/τ值约为10^6 cm^2/J，与不同非线性类型的材料相比，在不同光谱范围内的n2/τ值几乎是最大的。

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Материалы для сверхбыстрой терагерцовой фотоники

Designing of the ultrafast terahertz photonics devices requires materials with the biggest nonlinear refractive index coefficient n2 and the lowest settling time of the nonlinear response τ in the terahertz spectral range. In the present study, we show that the ratio n2/τ for media with the vibrational nonlinearity in the terahertz range is determined by the square of the medium thermal expansion coefficient and the fifth power of its dominative stretching vibrational mode frequency. These findings are based on the theory of the media vibrational nature nonlinear polarization response to incident THz radiation. We provide estimated values of the n2/τ ratio for a group of liquids and crystal materials. According to our evaluations, n2/τ value for alpha-pinene in the terahertz spectral range is about 10^6 cm^2/J and is almost the biggest one compared to materials with different nonlinearity types in various spectral ranges.

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Оптика и спектроскопия

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