用于超灵敏腔内电场传感的电光接口

Ileana-Cristina Benea-Chelmus, Y. Salamin, F. F. Settembrini, Y. Fedoryshyn, W. Heni, D. Elder, L. Dalton, J. Leuthold, J. Faist
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引用次数: 0

摘要

我们在硅光子学平台上展示了一种光纤耦合的全单片电光相干接口,该接口通过与电信频率光子的非线性耦合,以亚周分辨率感知太赫兹电场。太赫兹场对腔模式的强约束使耦合强度可以检测低至20 V/m的场。我们讨论了这些平台在量子极限下为感应腔限太赫兹态提供的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electro-optic interface for ultrasensitive intra-cavity electric field sensing
We demonstrate a fibre-coupled, fully monolithic electro-optic coherent interface on the silicon-photonics platform that senses terahertz electric fields with sub-cycle resolution by means of nonlinear coupling with photons at telecom frequencies. A strong confinement of the terahertz field to a cavity mode enables a coupling strength to sense fields as low as 20 V/m. We discuss the opportunities such platforms provide for sensing of cavity-confined terahertz states at the quantum limit.
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