200-Gb/s Direct Modulation of a 50-GHz Class Laser With Advanced Digital Modulations

Directly modulated lasers (DML) dominate the short reach optical interconnect market. For years, the bandwidth of commercial DMLs has been limited to a level of 25 GHz, which can support a speed up to around 100 Gb/s via advanced modulations like Nyquist-shaped 4-ary pulse amplitude modulation (PAM-...

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Bibliographic Details
Published in:Journal of lightwave technology 2021-02, Vol.39 (3), p.845-852
Main Authors: Che, Di, Matsui, Yasuhiro, Schatz, Richard, Rodes, Roberto, Khan, Ferdous, Kwakernaak, Martin, Sudo, Tsurugi
Format: Article
Language:English
Subjects:
Bandwidth
Bandwidths
DBR lasers
Digital modulations
Digital signal processing
direct detection
direct modulation
Directly modulated lasers
Discrete multi-tone
Distributed Bragg reflectors
entropy loading
High-speed electronics
Interconnect applications
Lasers
Modulation
Multiplexing
Nonreturn to zero signal
Optical distortion
Optical interconnect
Optical interconnects
probabilistic constellation shaping
Pulse amplitude modulation
Reflection
semiconductor laser
Semiconductor optical amplifiers
Subcarrier multiplexing
Subcarriers
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Summary:Directly modulated lasers (DML) dominate the short reach optical interconnect market. For years, the bandwidth of commercial DMLs has been limited to a level of 25 GHz, which can support a speed up to around 100 Gb/s via advanced modulations like Nyquist-shaped 4-ary pulse amplitude modulation (PAM-4), carrier-less amplitude phase (CAP) modulation, subcarrier multiplexing, and discrete multitone (DMT). To scale with the capacity evolution of interconnect applications, it is in urgent demand to develop DMLs operated at 50G class and even beyond. In this article, we exploit a newly designed 50G-class short-cavity distributed Bragg reflector (DBR) laser, called the two- κ DBR laser, and demonstrate its capability of supporting 200 Gb/s per wavelength direct modulation and direct detection transmissions. Combining high-speed electronics with the 50G-class DML, we demonstrate a variety of advanced digital modulations including Nyquist-shaped 100-GBaud PAM-4, 80-GBaud PAM-8, and 50-GHz DMT signals, with the maximum net bit rate of 236 Gb/s. The DML exhibits an ultra-low chirp parameter of 1.0, which enables isolator-free operation and dispersion-tolerant transmission over tens of kilometers at O-band.
ISSN:0733-8724
1558-2213
1558-2213
DOI:10.1109/JLT.2020.3043374