Superconducting Acousto-optic Phase Modulator
Abstract
We report the development of a superconducting acousto-optic phase modulator fabricated on a lithium niobate substrate. A titanium-diffused optical waveguide is placed in a surface acoustic wave resonator, where the electrodes for mirrors and an interdigitated transducer are made of a superconducting niobium titanium nitride thin film. The device performance is evaluated as a substitute for the current electro-optic modulators, with the same fiber coupling scheme and comparable device size. Operating the device at a cryogenic temperature (T=8K), we observe the length-half-wave-voltage (length-) product of 1.78 Vcm. Numerical simulation is conducted to reproduce and extrapolate the performance of the device. An optical cavity with mirror coating on the input/output facets of the optical waveguide is tested for further enhancement of the modulation efficiency. A simple extension of the current device is estimated to achieve an efficient modulation with 0.27 V.
Keywords
Cite
@article{arxiv.2104.11508,
title = {Superconducting Acousto-optic Phase Modulator},
author = {Ayato Okada and Rekishu Yamazaki and Maria Fuwa and Atsushi Noguchi and Yuya Yamaguchi and Atsushi Kanno and Naokatsu Yamamoto and Yuji Hishida and Hirotaka Terai and Yutaka Tabuchi and Koji Usami and Yasunobu Nakamura},
journal= {arXiv preprint arXiv:2104.11508},
year = {2021}
}
Comments
9 pages, 4 figures