Silicon-Integrated High-Speed Modulators Based on Barium Titanate with Record-Large Pockels Coefficients

F. Eltes, J. Ortmann, P. Castera, D. Urbonas, D. Caimi, L. Czornomaz, P. Sanchis, J. Fompeyrine, S. Abel
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引用次数: 3

Abstract

Integrated photonics is a key technology platform for optical communication, sensing, and data processing. Driven by the success of the CMOS industry and the resulting maturity of silicon-based fabrication methods, silicon photonics has evolved as an important candidate to realize integrated photonic circuits (PICs) in a cost-efficient and scalable way. Electrical control of the optical properties is critical in PICs: Fast electro-optical modulators are essential to reach high data rates, low-loss switches are needed to dynamically reconfigure networks, and low-power tuning elements are important to compensate temperature fluctuations. Traditionally, such components are implemented in silicon photonics by exploiting the plasma-dispersion effect [1] or Joule heating [2], which are, however, intrinsically linked with optical absorption or high power consumption. These challenges could be solved by using the Pockels effect as an electro-optic switching mechanism. However, because silicon lacks a Pockels effect, other materials with a non-vanishing Pockels effect need to be integrated on the technology platform.
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基于创纪录大口袋系数钛酸钡的硅集成高速调制器
集成光子学是光通信、传感和数据处理的关键技术平台。由于CMOS产业的成功和硅基制造方法的成熟,硅光子学已经发展成为以经济高效和可扩展的方式实现集成光子电路(pic)的重要候选。光学特性的电气控制在PICs中至关重要:快速电光调制器对于达到高数据速率至关重要,需要低损耗开关来动态重新配置网络,低功率调谐元件对于补偿温度波动非常重要。传统上,这些元件是通过利用等离子体色散效应[1]或焦耳加热[2]在硅光子学中实现的,然而,这与光吸收或高功耗有着内在的联系。这些挑战可以通过使用波克尔斯效应作为电光开关机制来解决。然而,由于硅缺乏Pockels效应,其他具有不消失Pockels效应的材料需要在技术平台上集成。
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