C+L-Band InP-Based Coherent Driver Modulator Enabled Net-1.8 Tbps/λ Transmission

IF 4.8 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Lightwave Technology Pub Date : 2024-09-03 DOI:10.1109/JLT.2024.3453510

Josuke Ozaki;Yoshihiro Ogiso;Hiroshi Yamazaki;Masanori Nakamura;Kenta Sugiura;Kazuya Nagashima;Yasuaki Hazhizume;Nobuhiro Nunoya;Yutaka Miyamoto;Mitsuteru Ishikawa

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Abstract

We developed the world's first InP-based C+L-band coherent driver modulator (CDM) that has a 3-dB electro-optic (EO) bandwidth of over 90 GHz. The CDM consisted of an InP-based n-i-p-n heterostructure twin IQ modulator chip with a differential capacitively loaded traveling-wave electrode, a SiGe BiCMOS driver in an open-collector configuration, and an RF package with a flexible printed circuit as the RF interface, with 3-dB bandwidths exceeding 105, 97, and 77 GHz, respectively. In terms of optical characteristics, by using a waveguide with a middle-ridge structure and optimizing the epitaxial structure of the InP modulator chip, the wavelength dependence of the absorption loss, which has been a problem with conventional InP modulators, is suppressed, and the insertion loss per polarization at maximum transmission, including a bias loss of V_π = 2.0 V, is less than 11 dB over the C+L band. In addition, by using the newly developed CDM, we achieved a single-carrier net bit rate of 1.8 Tbps after 80-km of standard single-mode fiber transmission in the C+L band.

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基于 InP 的 C+L 波段相干驱动调制器支持 Net-1.8 Tbps/λ 传输

我们开发了世界上第一个基于inp的C+ l波段相干驱动调制器（CDM），具有超过90ghz的3db电光（EO）带宽。CDM包括一个基于inp的n-i-p-n异质结构双IQ调制器芯片，该芯片具有差分电容负载行波电极，一个开路集电极配置的SiGe BiCMOS驱动器，以及一个以柔性印刷电路作为RF接口的RF封装，其3db带宽分别超过105,97和77 GHz。在光学特性方面，通过采用中脊结构波导和优化InP调制器芯片的外延结构，抑制了传统InP调制器存在的吸收损耗对波长的依赖，最大传输时每偏振的插入损耗（包括Vπ = 2.0 V的偏置损耗）在C+L波段内小于11 dB。此外，通过使用新开发的CDM，我们在C+L波段的标准单模光纤传输80公里后实现了1.8 Tbps的单载波净比特率。

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来源期刊

Journal of Lightwave Technology 工程技术-工程：电子与电气

CiteScore

9.40

自引率

14.90%

发文量

936

审稿时长

3.9 months

期刊介绍： The Journal of Lightwave Technology is comprised of original contributions, both regular papers and letters, covering work in all aspects of optical guided-wave science, technology, and engineering. Manuscripts are solicited which report original theoretical and/or experimental results which advance the technological base of guided-wave technology. Tutorial and review papers are by invitation only. Topics of interest include the following: fiber and cable technologies, active and passive guided-wave componentry (light sources, detectors, repeaters, switches, fiber sensors, etc.); integrated optics and optoelectronics; and systems, subsystems, new applications and unique field trials. System oriented manuscripts should be concerned with systems which perform a function not previously available, out-perform previously established systems, or represent enhancements in the state of the art in general.

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