Silicon Nitride (Si3N4) (De-)Multiplexers for 1-μm CWDM Optical Interconnects

Cheung, Stanley; Tan, Michael

doi:10.1109/jlt.2019.2956382

Cited by 20 publications

(20 citation statements)

References 45 publications

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“…For thin garnet films below 200 nm, the MO/SiN waveguides show higher waveguide FoM compared to MO/SOI in an optimized design. High performance broadband TM(TE) isolators and circulators with 32 dB(30 dB) isolation ratio, towards integration of nonreciprocal photonic devices on SiN PICs, paving the way for a variety of applications in telecommunication [23], data communication [52], frequency comb generation and on-chip LIDAR systems [53].…”

Section: Discussionmentioning

confidence: 99%

Waveguide-integrated high-performance magneto-optical isolators and circulators on silicon nitride platforms

Yan

Yang

Liu

et al. 2020

Optica

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Optical isolators and circulators are indispensable for photonic integrated circuits (PICs). Despite of significant progress in silicon-on-insulator (SOI) platforms, integrated optical isolators and circulators have been rarely reported on silicon nitride (SiN) platforms. In this paper, we report monolithic integration of magneto-optical (MO) isolators on SiN platforms with record high performances based on standard silicon photonics foundry process and magneto-optical thin film deposition. We successfully grow high quality MO garnet thin films on SiN with large Faraday rotation up to -5900 deg/cm. We show a superior magnetooptical figure of merit (FoM) of MO/SiN waveguides compared to that of MO/SOI in an optimized device design. We demonstrate TM/TE mode broadband and narrow band optical isolators and circulators on SiN with high isolation ratio, low cross talk and low insertion loss.In particular, we observe 1 dB insertion loss and 28 dB isolation ratio in a SiN racetrack resonator-based isolator at 1570.2 nm wavelength. The low thermo-optic coefficient of SiN also ensures excellent temperature stability of the device. Our work paves the way for integration of high performance nonreciprocal photonic devices on SiN platforms.

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Section: Discussionmentioning

confidence: 99%

Waveguide-integrated high-performance magneto-optical isolators and circulators on silicon nitride platforms

Yan

Yang

Liu

et al. 2020

Optica

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“…95 Many applications require a Si 3 N 4 -based waveguide for coarse wavelength division multiplexer (CWDM) and de- multiplexer, where it enables for temperature-insensitive components. 96 In many different designs, Ge photodiodes are highly dependable. The potential yield and dependability required for scaling are driven by the ongoing procedure control of these important components.…”

Section: Future Perspectivementioning

confidence: 99%

Silicon photonics interfaced with microelectronics for integrated photonic quantum technologies: a new era in advanced quantum computers and quantum communications?

et al. 2023

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“…Si 3 N 4 has been widely used to demonstrate passive linear devices for datacom and visible wavelengths [89,90], including low loss waveguides [90,91], multimode splitters [83,92] and Mach-Zehnder interferometers [93]. Many research groups have worked on (de)multiplexers such as array waveguide gratings [94], angled-multimode interferometers [95,96] and echelle gratings [94,97]. These devices exploit Si 3 N 4 to achieve a high tolerance to temperature variations for wavelength (de)multiplexing in datacom circuits and optical spectrometers [94,98].…”

Section: Silicon Nitridementioning

confidence: 99%

“…Many research groups have worked on (de)multiplexers such as array waveguide gratings [94], angled-multimode interferometers [95,96] and echelle gratings [94,97]. These devices exploit Si 3 N 4 to achieve a high tolerance to temperature variations for wavelength (de)multiplexing in datacom circuits and optical spectrometers [94,98]. Si nitride has also become one of the key materials for nonlinear applications and many efforts have geared towards the demonstration of wavelength conversion and optical parametric amplification in the telecom band.…”

Section: Silicon Nitridementioning

confidence: 99%

CORNERSTONE’s Silicon Photonics Rapid Prototyping Platforms: Current Status and Future Outlook

Littlejohns

Rowe

et al. 2020

Applied Sciences

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The field of silicon photonics has experienced widespread adoption in the datacoms industry over the past decade, with a plethora of other applications emerging more recently such as light detection and ranging (LIDAR), sensing, quantum photonics, programmable photonics and artificial intelligence. As a result of this, many commercial complementary metal oxide semiconductor (CMOS) foundries have developed open access silicon photonics process lines, enabling the mass production of silicon photonics systems. On the other side of the spectrum, several research labs, typically within universities, have opened up their facilities for small scale prototyping, commonly exploiting e-beam lithography for wafer patterning. Within this ecosystem, there remains a challenge for early stage researchers to progress their novel and innovate designs from the research lab to the commercial foundries because of the lack of compatibility of the processing technologies (e-beam lithography is not an industry tool). The CORNERSTONE rapid-prototyping capability bridges this gap between research and industry by providing a rapid prototyping fabrication line based on deep-UV lithography to enable seamless scaling up of production volumes, whilst also retaining the ability for device level innovation, crucial for researchers, by offering flexibility in its process flows. This review article presents a summary of the current CORNERSTONE capabilities and an outlook for the future.

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Silicon Nitride (Si₃N₄) (De-)Multiplexers for 1-μm CWDM Optical Interconnects

Cited by 20 publications

References 45 publications

Waveguide-integrated high-performance magneto-optical isolators and circulators on silicon nitride platforms

Waveguide-integrated high-performance magneto-optical isolators and circulators on silicon nitride platforms

Silicon photonics interfaced with microelectronics for integrated photonic quantum technologies: a new era in advanced quantum computers and quantum communications?

CORNERSTONE’s Silicon Photonics Rapid Prototyping Platforms: Current Status and Future Outlook

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