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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Analysis and Implementation of DC-coupled Compact and Power Efficient Lumped Driver for Single-Ended Optical Modulators in SiGe 250 nm BiCMOS Technology
TL;DR: In this paper , a differential to single-ended DC-coupled compact and power efficient lumped driver for singleended optical modulators using the IHP 250 nm SiGe BiCMOS SG25H5 technology, featuring a low frequency gain of 15 dB and 3 dB bandwidth of 53 GHz, along with a total harmonic distortion at 1dB compression of 8 % and an in band group delay variation of ±3 ps.
Proceedings ArticleDOI
Comprehensive frequency chirp characterization of silicon ring resonator modulators
Erwan Weckenmann,Laurent Bramerie,Diego Perez-Galacho,Frederic Boeuf,Lucas Deniel,Delphine Marris-Morini,Christophe Peucheret +6 more
TL;DR: In this paper, the frequency chirping properties of a silicon ring resonator modulator were experimentally investigated and compared to a numerical model, and the influence of the wavelength detuning and the modulation frequency were highlighted for the first time.
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Using electrical resistance asymmetries to infer the geometric shapes of foundry patterned nanophotonic structures
TL;DR: In this article , electrical resistance measurements are used to infer the geometry of nanophotonic structures and reconstruct the microloading curves of foundry etch processes from a standard silicon photonics foundry and discuss some potential sources of error that need to be calibrated out.
Proceedings ArticleDOI
An Overview of Integrated Photonic Devices for Energy Efficient Transmitters used in Optical Interconnects
TL;DR: In this paper, various components required for the realization of transmitters to be used for short-range optical interconnects are presented and their performance is studied using either numerical simulation or lab measurements.
Journal ArticleDOI
Perspective: Nanophotonic electro-optics enabling THz bandwidths, exceptional modulation and energy efficiencies, and compact device footprints
Larry R. Dalton,Juerg Leuthold,Bruce H. Robinson,Christian Hafner,Delwin L. Elder,Lewis E. Johnson,Scott R. Hammond,Wolfgang Heni,Benedikt Baeuerle,Eva De Leo,Ueli Koch,Patrick Habegger,Yuriy Fedoryshyn,David Moor,Ping Ma +14 more
TL;DR: In this paper , the authors focus on materials, with an emphasis on the need to consider the interrelationship between hybrid device architectures and materials, and propose alternative processing techniques to reduce the attenuation of r33 values observed in silicon organic hybrid and plasmonic organic hybrid devices arising from chromophore-electrode electrostatic interactions and material conductance.
References
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