128 Gbit/s Operation of AXEL with Energy Efficiency of 1.5 pJ/bit for Optical Interconnection

Wataru KOBAYASHI; Shigeru KANAZAWA; Takahiko SHINDO; Manabu MITSUHARA; Fumito NAKAJIMA

doi:10.1587/transele.2022OCI0002

Joint Special Section on Opto-electronics and Communications for Future Optical Network

128 Gbit/s Operation of AXEL with Energy Efficiency of 1.5 pJ/bit for Optical Interconnection

Wataru KOBAYASHI, Shigeru KANAZAWA, Takahiko SHINDO, Manabu MITSUHARA, Fumito NAKAJIMA

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Keywords: electro-absorption modulator, semiconductor optical amplifier, DFB laser, pulse amplitude modulation

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2023 Volume E106.C Issue 11 Pages 732-738

DOI https://doi.org/10.1587/transele.2022OCI0002

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Abstract

We evaluated the energy efficiency per 1-bit transmission of an optical light source on InP substrate to achieve optical interconnection. A semiconductor optical amplifier (SOA) assisted extended reach EADFB laser (AXEL) was utilized as the optical light source to enhance the energy efficiency compared to the conventional electro-absorption modulator integrated with a DFB laser (EML). The AXEL has frequency bandwidth extendibility for operation of over 100Gbit/s, which is difficult when using a vertical cavity surface emitting laser (VCSEL) without an equalizer. By designing the AXEL for low power consumption, we were able to achieve 64-Gbit/s, 1.0pJ/bit and 128-Gbit/s, 1.5pJ/bit operation at 50°C with the transmitter dispersion and eye closure quaternary of 1.1dB.

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