Journal ArticleDOI
Wide Range Tuning of Slow Light Pulse in SOI Photonic Crystal Coupled Waveguide via Folded Chirping
TLDR
In this paper, the authors demonstrate state-of-the-art slow light in silicon-on-insulator photonic crystal coupled waveguide, which allows slow light pulse transmission and its tunable delay by means of structural chirping.Abstract:
In this paper, we demonstrate state-of-the-art slow light in silicon-on-insulator photonic crystal coupled waveguide, which allows slow light pulse transmission and its tunable delay by means of structural chirping. The key idea of this study is the application of a folded chirping profile to the structure, instead of the conventional monotonous chirping. It suppresses unwanted spectral oscillation caused by structural disordering and expands the tuning range. By postprocessing an airhole-diameter-chirped device, we show that 0.9-ps-wide slow light pulses are delayed for 72 ps, corresponding to a buffering capacity of 80 bits. In a separate, unchirped device, we demonstrate a tunable delay by applying thermally induced index chirping. Here, a maximum tuning range of 103 ps and a tunable capacity of 22 bits are obtained.read more
Citations
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Journal ArticleDOI
Dispersion engineered slow light in photonic crystals: A comparison
Sebastian A. Schulz,Liam O'Faolain,Daryl M. Beggs,Thomas P. White,Andrea Melloni,Thomas F. Krauss +5 more
TL;DR: In this article, different types of dispersion engineered photonic crystal waveguides have been developed for slow light applications, and the group index bandwidth product (GBP) and the loss per delay in terms of dB ns −1 were compared.
Journal ArticleDOI
Tunable Delay Lines in Silicon Photonics: Coupled Resonators and Photonic Crystals, a Comparison
Andrea Melloni,Antonio Canciamilla,Carlo Ferrari,Francesco Morichetti,Liam O'Faolain,Thomas F. Krauss,R.M. De La Rue,Antonio Samarelli,Marc Sorel +8 more
TL;DR: In this article, a direct comparison between coupled resonator optical waveguides (CROWs) and photonic crystal waveguide (PhCWs), which have both been exploited as tunable delay lines, was conducted under the same silicon-on-insulator (SOI) technological platform.
Book
Handbook of Gas Sensor Materials: Properties, Advantages and Shortcomings for Applications Volume 2: New Trends and Technologies
TL;DR: The Handbook of Gas Sensor Materials : Properties, Advantages and Shortcomings for Applications Volume 2: New Trends and Technologies as mentioned in this paper is available on our book collections and it comes PDF and EPUB document format.
Journal ArticleDOI
Slow light enhanced nonlinear optics in periodic structures
TL;DR: In this paper, the authors describe the underlying theory developed for shallow gratings, but whose conclusions can be extended to planar photonic crystal waveguides, in particular the enhancement of third-order nonlinear processes with slow light.
Journal ArticleDOI
Continuously tunable delay line based on SOI tapered Bragg gratings
Ivano Giuntoni,David Stolarek,Dimitar I. Kroushkov,Jürgen Bruns,Lars Zimmermann,Bernd Tillack,Klaus Petermann +6 more
TL;DR: The realization of an integrated delay line using tapered Bragg gratings in a drop-filter configuration is presented, showing experimentally that a tuning range of 450 ps can be obtained with a tuning coefficient of -51 ps/°C.
References
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Journal ArticleDOI
Slow light in photonic crystals
TL;DR: In this article, the background theory of slow light, as well as an overview of recent experimental demonstrations based on photonic-band engineering are reviewed, and practical issues related to real devices and their applications are also discussed.
Journal ArticleDOI
Active control of slow light on a chip with photonic crystal waveguides
TL;DR: An over 300-fold reduction of the group velocity on a silicon chip via an ultra-compact photonic integrated circuit using low-loss silicon photonic crystal waveguides that can support an optical mode with a submicrometre cross-section is experimentally demonstrated.
Journal ArticleDOI
Ultracompact optical buffers on a silicon chip
TL;DR: In this paper, the trade-offs between resonantly enhanced group delay, device size, insertion loss and operational bandwidth are analyzed for various delay-line designs, and a large fractional group delay exceeding 10 bits is achieved for bit rates as high as 20 Gbps.
Journal ArticleDOI
Extremely Large Group-Velocity Dispersion of Line-Defect Waveguides in Photonic Crystal Slabs
TL;DR: Waveguiding characteristics and group-velocity dispersion of line defects in photonic crystal slabs as a function of defect widths reveal that they can be tuned by controlling the defect width, and the results agree well with theoretical calculations, indicating that light paths with made-to-order dispersion can be designed.
Journal ArticleDOI
Why do we need slow light
TL;DR: The extreme speed at which light moves, and the fact that photons do not tend to interact with transparent matter, is of enormous benefit to mankind as discussed by the authors, allowing us to see deep into the Universe and to transmit data over long distances in optical fibres.