High-Speed Silicon Photonics Modulators
Jeremy Witzens
- Vol. 106, Iss: 12, pp 2158-2182
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TLDR
The focus of this paper lies on the latter capable of supporting both complex-valued modulation and optically broadband operation, with a sense of the limitations of current technology and the potential of novel hybrid material integration.Abstract:
The realization of gigahertz bandwidth modulators out of silicon-based technology in the early 2000s marked a cornerstone of silicon photonics development. While modulation speeds have since progressed well above 50 GHz and satisfy the bandwidth requirements of current and emerging modulation formats, concurrently obtaining low drive voltages and low insertion losses remains a very active area of research. While modulators generally come in two categories, direct absorption and those relying on embedded phase shifters, the focus of this paper lies on the latter capable of supporting both complex-valued modulation and optically broadband operation. The paper provides an overview of the current state of the art, as well as of currently explored improvement paths. First, common phase shifter configurations, aspects related to electrical driving, and associated power consumption are reviewed. Slow-wave, resonant, and plasmonic enhancements are further discussed. The reader is familiarized with the optimization of these devices and provided with a sense of the limitations of current technology and the potential of novel hybrid material integration.read more
Citations
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Superiorly low half-wave voltage electro-optic polymer modulator for visible photonics.
TL;DR: In this paper , the authors developed a significantly efficient optical modulator which has low voltage-length product (VπL) of 0.52 V·cm at λ ǫ= 640 nm using an electro-optic (EO) polymer, with a high glass transition temperature and low optical absorption loss (2.6 dB/cm).
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Study on Charge-Enhanced Ferroelectric SIS Optical Phase Shifters Utilizing Negative Capacitance Effect
TL;DR: In this article, the authors investigated the charge enhancement effect in a SIS capacitor with ferroelectric (FE) materials utilized by the negative capacitance (NC) effect and proposed an NC SIS optical phase modulator to enhance this effect.
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Compact and Energy-Efficient Forward-Biased PN Silicon Mach-Zehnder Modulator
Sourav Dev,Karanveer Singh,Reza Hosseini,Arijit Misra,Mircea-Traian Cătuneau,Stefan Preußler,H. Schneider,Kambiz Jamshidi +7 more
TL;DR: In this article , the effects of the phase shifters' length mismatch and asymmetric splitting on the modulation efficiency and extinction ratio of the MZM were simulated and compared with experimental results.
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A verified equivalent-circuit model for slotwaveguide modulators
Heiner Zwickel,Stefan Singer,Clemens Kieninger,Yasar Kutuvantavida,Narek Muradyan,Thorsten Wahlbrink,Shiyoshi Yokoyama,Sebastian Randel,Wolfgang Freude,Christian Koos +9 more
TL;DR: An equivalent-circuit model based on distributed elements is formed to describe the electric and electro-optic properties of travelling-wave silicon-organic hybrid (SOH) slot-waveguide modulators and allows to reliably predict the small-signal EO frequency response of the modulators.
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Near-IR & Mid-IR Silicon Photonics Modulators
Georgi V. Georgiev,Wei Cao,Weiwei Zhang,Li Ke,E. Thomson,Graham T. Reed,Milos Nedeljkovic,Goran Z. Mashanovich +7 more
TL;DR: In this article , the authors review current developments in the near-IR and mid-IR group IV photonic modulators that show promising performance and analyse recent trends in optical and electrical co-integration of modulators and drivers.
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