Si:PbGeO晶体光学常数在太赫兹范围内的色散

V. Bilyk, K. Brekhov, M. Agranat, E. Mishina
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引用次数: 1

摘要

目标。在过去的十年里,激光物理学的进步已经导致了单周期电磁脉冲源的产生,其持续时间约为1ps,对应于太赫兹(THz)频率范围和几十MV/cm的场振幅。这使得电场在铁电体上的无电极应用不仅可以观察相干声子的激发,还可以观察超快(在亚皮秒时间尺度上)动态极化开关。为了检测偏振开关,使用了一种泵浦探针技术,其中太赫兹脉冲与光学探针一起使用。由于光二次谐波的强度与偏振的平方成正比,因此利用光二次谐波信号测量太赫兹脉冲作用下的偏振开关。为了评估开关效率,需要线性(折射率和吸收系数)和非线性光学特性(二次和三次磁化率)。对于铁电晶体在太赫兹范围内的任何应用,了解相关的线性光学特性也是必要的。采用时域太赫兹光谱技术;在这里,一个皮秒的太赫兹脉冲通过晶体传输,通过用飞秒光脉冲的频闪探测器被记录下来。通过检测二阶光谐波频率下非线性光信号的强度,研究了铁电体中序参量的太赫兹诱导动力学。测量了掺杂硅的锗酸铅晶体上太赫兹波的透射率和二次谐波的产生强度。在此基础上,计算了0.5 ~ 2.0 THz范围内的吸收系数色散和三次非线性磁化率。在声子模附近存在基态吸收区,同时在两个声子模Ω1 = 1.3 THz和Ω2 = 2.0 THz下,三次非线性磁化率共振增强。该方法是分析铁电晶体光学特性色散的有效方法。由于详细分析了二次谐波强度的线性和非线性贡献,显著提高的光谱分辨率(0.1太赫兹)提高了确定非线性磁化率的精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dispersion of optical constants of Si:PbGeO crystal in the terahertz range
Objectives. Advances in laser physics over the last decade have led to the creation of sources of single-period electromagnetic pulses having a duration of about 1 ps, corresponding to the terahertz (THz) frequency range and a field amplitude of several tens of MV/cm. This allows the electrode-free application of an electric field to a ferroelectric for observing not only the excitation of coherent phonons, but also ultrafast (at the sub-picosecond timescale) dynamic polarization switching. To detect polarization switching, a pump-probe technique is used in which a THz pulse is used with an optical probe. Since its intensity is proportional to the square of the polarization, the signal of the optical second harmonic is used to measure polarization switching under the action of a THz pulse. To evaluate switching efficiency, both linear (refractive index and absorption coefficient) and non-linear optical characteristics (quadratic and cubic susceptibilities) are required. For any application of ferroelectric crystals in the THz range, knowledge of the relevant linear optical characteristics is also necessary.Methods. The technique of THz spectroscopy in the time domain was used; here, a picosecond THz pulse transmitted through the crystal is recorded by strobing the detector with a femtosecond optical pulse. The THz-induced dynamics of the order parameter in a ferroelectric was studied by detecting the intensity of a nonlinear optical signal at the frequency of the second optical harmonic.Results. The transmission of a THz wave and the intensity of second harmonic generation on a lead germanate crystal doped with silicon in the time and spectral domains were measured. On this basis, the absorption coefficient dispersion and cubic nonlinear susceptibility were calculated in the range of 0.5-2.0 THz. The presence of a region of fundamental absorption near the phonon modes was confirmed along with a resonant enhancement of the cubic nonlinear susceptibility for two phonon modes Ω1 = 1.3 THz and Ω2 = 2.0 THz.Conclusions. The proposed technique is effective for analyzing the dispersion of the optical characteristics of ferroelectric crystals. The significantly improved spectral resolution (0.1 THz) increases the accuracy of determining nonlinear susceptibility due to the detailed analysis of the linear and nonlinear contributions to the second harmonic intensity.
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