期刊
OPTICS LETTERS
卷 46, 期 17, 页码 4232-4235出版社
Optica Publishing Group
DOI: 10.1364/OL.430827
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资金
- National Natural Science Foundation of China [61875049, 61875124, 61935011]
- Science, Technology and Innovation Commission of Shenzhen Municipality [KQJSCX20180328165451777, JCYJ20180507 183418012, JCYJ20180306171923592, JSGG20190819175801678]
Extending the optical communication wavelengths to 2 μm can significantly increase data capacity. The ultra-broadband power splitter on silicon demonstrated in this work has a bandwidth exceeding 520 nm from 1500 to 2020 nm. With a triple tapered Y-junction and subwavelength grating structure, the device shows an ultra-compact footprint of only 3 μm x 2 μm and is capable of operating over a broadband from 1.55 μm and 2 μm wavelengths.
Extending the optical communication wavelengths to 2 mu M can significantly increase data capacity. Silicon photonics, which is a proven device integration technology, has made rapid progress at 2 mu m recently. As a fundamental functional element in the photonic design kit, the 3 dB power splitter has been extensively studied in both the 1.55 mu m and 2 mu m regime. While the device is highly desirable to operate over both wave bands, the large waveguide dispersion in silicon makes it challenging. In this work, we demonstrate an ultra-broadband power splitter on silicon, which has a 0.2 dB bandwidth exceeding 520 nm from 1500 to 2020 nm according to simulations. The beam splitter is realized by a triple tapered Y-junction, and its operational bandwidth is greatly increased by subwavelength grating structure. The device has an ultra-compact footprint of only 3 mu m x 2 mu m to the limitations on the setup and coupling technique, we measure the device bandwidth in 1.55 mu m and 2 mu m wave bands. The device insertion loss is measured to be below 0.4 dB from 1500 to 1620 nm and from 1960 to 2020 nm, respectively. According to these results, the proposed device is believed to be capable of operating over a broadband from 1.55 mu m and 2 mu m wavelengths. (C) 2021 Optical Society of America
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