Uneven splitting-ratio 1 \times 2 multimode interference splitters based on silicon wire waveguides

Jingtao Zhou; Huajun Shen; Rui Jia; Huanming Liu; Yidan Tang; Chengyue Yang; Chunlai Xue; Xinyu Liu

doi:10.3788/COL201109.082303

Journals >Chinese Optics Letters >Volume 9 >Issue 8 >Page 082303 > Article

Chinese Optics Letters
Vol. 9, Issue 8, 082303 (2011)

Uneven splitting-ratio 1 \times 2 multimode interference splitters based on silicon wire waveguides

Jingtao Zhou¹, Huajun Shen¹, Rui Jia¹, Huanming Liu¹, Yidan Tang¹, Chengyue Yang¹, Chunlai Xue², and Xinyu Liu¹

Author Affiliations

¹Key Laboratory of Microelectronics Devices and Integrated Technology Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China

²Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China

show less

DOI: 10.3788/COL201109.082303 Cite this Article Set citation alerts

Jingtao Zhou, Huajun Shen, Rui Jia, Huanming Liu, Yidan Tang, Chengyue Yang, Chunlai Xue, Xinyu Liu. Uneven splitting-ratio 1 \times 2 multimode interference splitters based on silicon wire waveguides[J]. Chinese Optics Letters, 2011, 9(8): 082303 Copy Citation Text

show less

Abstract

Two types of 1 \times 2 multi-mode interference (MMI) splitters with splitting ratios of 85:15 and 72:28 are designed. On the basis of a numerical simulation, an optimal length of the MMI section is obtained. Subsequently, the devices are fabricated and tested. The footprints of the rectangular MMI regions are only 3 \times 18.2 and 3 \times 14.3 (\mu m). The minimum excess losses are 1.4 and 1.1 dB. The results of the test on the splitting ratios are consistent with designed values. The devices can be applied in ultra-compact photonic integrated circuits to realize the "tap" function.

Keywords

230.1360 230.7370 230.7380

Download Citation

Set citation alerts for the article

Tools

Set citation alerts for the article

Save the article for my favorites

Paper Information