Enhancement of terahertz fields in LiTaO3 waveguides using a conical pulse front.

IF 3.2 2区 物理与天体物理 Q2 OPTICS Optics express Pub Date : 2024-07-15 DOI:10.1364/OE.519603
Eric R Sung, Yun Kai, Thomas Pezeril, Keith A Nelson
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Abstract

The development of methods for the generation of strong ultrafast electromagnetic pulses in the terahertz (THz) spectral range has led to a surge of progress in nonlinear THz spectroscopy and THz control of molecular and collective responses. For spectroscopy in the 1-THz range, the submillimeter wavelengths and associated large spot sizes, large optical elements, and short distances between final focusing elements and samples can lead to cumbersome experimental setups that are incompatible with some sample environments. Here, we introduce a novel terahertz ring excitation (TREx) optical pumping geometry to generate superposing, focusing fields in planar THz waveguides made out of the electro-optic material lithium tantalate. High THz fields, >175 kV/cm, are generated and measured optically with no free-space THz propagation. The field level achieved by pumping with a sequence of concentric rings of excitation light exceeds by about 20× the result of a single cylindrically focused line of pump light that has been used routinely in previous work. The technique opens new prospects for compact waveguide-based linear and nonlinear THz spectroscopy and signal processing.

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利用锥形脉冲前沿增强 LiTaO3 波导中的太赫兹场。
太赫兹(THz)光谱范围内强超快电磁脉冲产生方法的开发,推动了非线性太赫兹光谱学以及分子和集体反应的太赫兹控制方面的突飞猛进。对于 1-THz 范围内的光谱学,亚毫米波长和相关的大光斑尺寸、大光学元件以及最终聚焦元件和样品之间的短距离会导致实验装置的繁琐,与某些样品环境不兼容。在这里,我们引入了一种新颖的太赫兹环激发(TREx)光学泵浦几何结构,在由电光材料钽酸锂制成的平面太赫兹波导中产生叠加聚焦场。产生的高太赫兹场大于 175 kV/cm,并通过光学方法进行测量,没有自由空间太赫兹传播。用一连串同心环形激发光进行抽运所获得的场强,比以前工作中常规使用的单条圆柱形聚焦抽运光线所获得的场强高出约 20 倍。这项技术为基于紧凑型波导的线性和非线性太赫兹光谱学和信号处理开辟了新的前景。
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来源期刊
Optics express
Optics express 物理-光学
CiteScore
6.60
自引率
15.80%
发文量
5182
审稿时长
2.1 months
期刊介绍: Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.
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