A high efficiency input/output coupler for small silicon photonic devices

AbstractSilicon photonics is becoming more and more attractive in the applications of optical interconnections, optical computing, and optical sensing. Although various silicon photonic devices have been developed rapidly, it is still not easy to realize active photonic devices and circuits with silicon alone due to the intrinsic limitations of silicon. In recent years, two-dimensional (2D) materials have attracted extensive attentions due to their unique properties in electronics and photonics. 2D materials can be easily transferred onto silicon and thus provide a promising approach for realizing active photonic devices on silicon. In this paper, we give a review on recent progresses towards hybrid silicon photonics devices with 2D materials, including two parts. One is silicon-based photodetectors with 2D materials for the wavelength-bands from ultraviolet (UV) to mid-infrared (MIR). The other is silicon photonic switches/modulators with 2D materials, including high-speed electro-optical modulators, high-efficiency thermal-optical switches and low-threshold all-optical modulators, etc. These hybrid silicon photonic devices with 2D materials devices provide an alternative way for the realization of multifunctional silicon photonic integrated circuits in the future.

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Toward Nonvolatile Switching in Silicon Photonic Devices

Laser & Photonics Review ◽

10.1002/lpor.202000501 ◽

2021 ◽

pp. 2000501

Author(s):

Jorge Parra ◽

Irene Olivares ◽

Antoine Brimont ◽

Pablo Sanchis

Keyword(s):

Photonic Devices ◽

Silicon Photonic

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Silicon photonic devices for mid-infrared applications

Nanophotonics ◽

10.1515/nanoph-2013-0027 ◽

2014 ◽

Vol 3 (4-5) ◽

pp. 329-341 ◽

Cited By ~ 19

Author(s):

Raji Shankar ◽

Marko Lončar

Keyword(s):

Gas Sensing ◽

Wavelength Region ◽

Photonic Devices ◽

Ring Resonators ◽

Space Communications ◽

Mid Infrared ◽

Silicon Photonic ◽

Processing Techniques ◽

Silicon Based

AbstractThe mid-infrared (IR) wavelength region (2–20 µm) is of great interest for a number of applications, including trace gas sensing, thermal imaging, and free-space communications. Recently, there has been significant progress in developing a mid-IR photonics platform in Si, which is highly transparent in the mid-IR, due to the ease of fabrication and CMOS compatibility provided by the Si platform. Here, we discuss our group’s recent contributions to the field of silicon-based mid-IR photonics, including photonic crystal cavities in a Si membrane platform and grating-coupled high-quality factor ring resonators in a silicon-on-sapphire (SOS) platform. Since experimental characterization of microphotonic devices is especially challenging at the mid-IR, we also review our mid-IR characterization techniques in some detail. Additionally, pre- and post-processing techniques for improving device performance, such as resist reflow, Piranha clean/HF dip cycling, and annealing are discussed.

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