The 80th JSAP Autumn Meeting 2019

Presentation information

Oral presentation

4 JSAP-OSA Joint Symposia 2019 » 4.6 Quantum Optics and Nonlinear Optics

[21a-E214-1~9] 4.6 Quantum Optics and Nonlinear Optics

Sat. Sep 21, 2019 9:00 AM - 11:45 AM E214 (E214)

Takashige Omatsu(Chiba Univ.), Takuya Hirano(Gakushuin Univ.)

11:00 AM - 11:15 AM

[21a-E214-7] Design and fabrication of a silicon nitride ring resonator for on-chip broadband entangled photon sources

〇(M2)ZHENGHAO YIN1, KENTA SUGIURA1, XIAOYANG CHENG2, HIDEAKI TAKASHIMA1, RYO OKAMOTO1, SHIYOSHI YOKOYAMA2, SHIGEKI TAKEUCHI1 (1.Kyoto Univ., 2.Kyushu Univ.)

Keywords:quantum optics, four wave mixing, entangled photon pairs

Quantum entanglement in chip scale has been attracting the recent research interests. With the standard CMOS technology, it is possible to realize entangled photon sources in optical nonlinear micro ring resonators on the platform of silicon or silicon nitride. In order to extend the frequency entanglement range, i.e., to satisfy a broadband phase matching condition, it is essential to take the group velocity dispersion (GVD) into consideration during the four wave mixing process.
We first measured the GVD for various kinds of SiN films deposited by liquid source (LS) CVD, low pressure (LP) CVD and plasma enhanced (PE) CVD. For the GVD estimation, in addition to the ellipsometry, we analyzed the changes in the free spectrum range (FSR) of ring resonators fabricated using the films.
Then, we numerically simulated the GVD of the ring resonators and found that a ring resonator with a radius of 200 um using LS-CVD SiN films with the thickness greater than 800 nm, can satisfy the required phase matching condition in a broad band. Then we fabricated a ring resonator using the LS-CVD 800nm-thick SiN film. The transmission spectrum of the device is shown in the figure and the Q factors are up to 80,000. We also found that the estimated GVD is flat and positive between about 1560 nm and 1620 nm, suggesting the possibility of broadband generation of entangled photons in this region.