Design, simulation, and characterization of a passive optical add-drop filter in silicon-on-insulator technology

Kaźmierczak, Andrzej; Brière, M.; Drouard, Emmanuel; Bontoux, Pascal; Rojo-Romeo, P.; O’Connor, Ian; Letartre, Xavier; Gaffiot, F.; Orobtchouk, Régis; Benyattou, T.

doi:10.1109/lpt.2005.848554

Cited by 27 publications

(16 citation statements)

References 7 publications

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“…39) Kazmierczak et al demonstrated an add-drop filter type consisting of two microdisc resonators mounted on two crossing wires. 40) In the following, we will focus on Mach-Zehnder interferometers, lattice filters, arrayed waveguide gratings, and ring resonators devices performing such tasks.…”

Section: Linear Wavelength Filter Devicesmentioning

confidence: 99%

Linear and Nonlinear Nanophotonic Devices Based on Silicon-on-Insulator Wire Waveguides

Dumon

Priem

Nunes

et al. 2006

jjap

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We review the basic linear and nonlinear properties of silicon-on-insulator photonic wire waveguides and their application to nanophotonic circuits. We give an overview of the performance and issues of basic circuit elements such as couplers and intersections and review the achievements in linear wavelength-selective elements, as well as nonlinear applications of wires and resonators for high-speed signal processing.

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Section: Linear Wavelength Filter Devicesmentioning

confidence: 99%

Linear and Nonlinear Nanophotonic Devices Based on Silicon-on-Insulator Wire Waveguides

Dumon

Priem

Nunes

et al. 2006

jjap

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“…The symmetric configuration was already analyzed in a previous publication, 7 where we demonstrated an add-drop filter based on resonators with disk radii as small as 2 m. From these results, we further developed this concept and studied the suitability of the topology for the construction of a compact, optical bidirectional network routed with wavelength-division multiplexing ͑WDM͒.…”

Section: Optical Add-drop Filter Designmentioning

confidence: 87%

Synthesis of highly integrated optical network based on microdisk-resonator add-drop filters in silicon-on-insulator technology

Kaźmierczak¹,

Dortu²,

Giannone³

et al. 2009

Opt. Eng

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Abstract. We analyze a highly compact optical add-drop filter topology based on a pair of microdisk resonators and a bus waveguide intersection. The filter is further assessed on an integrated optical 4 ϫ 4 network for optical on-chip communication. The proposed network structure, as compact as 50ϫ 50 m, is fabricated in a CMOS-compatible process on a silicon-on-insulator ͑SOI͒ substrate. Finally, the experimental results demonstrate the proper operation of the fabricated devices.

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“…We use values 8, 10, 16 and 24 for the maximum number of wavelengths per waveguide in all the experiments. This choice is conform to the existing technology: for 5nm lithography and 90nm technology, for wavelengths between 1557-1583nm and microresonator radii from 1.0-2.5µm, waveguide with 16 multiplexed wavelengths have been fabricated [18], [26], [9]. This value is dependent on free spectral range (spacing between consecutive resonant frequencies: 50 nm), quality factor of a microresonator (500-800) and variability.…”

Section: Case Studymentioning

confidence: 99%

Optical Ring Network-on-Chip (ORNoC): Architecture and design methodology

Beux

Trajković

O’Connor

et al. 2011

2011 Design, Automation &Amp; Test in Europe

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Abstract-State-of-the-art System-on-Chip (SoC) consists of hundreds of processing elements, while trends in design of the next generation of SoC point to integration of thousand of processing elements, requiring high performance interconnect for high throughput communications. Optical on-chip interconnects are currently considered as one of the most promising paradigms for the design of such next generation MultiProcessors System on Chip (MPSoC). They enable significantly increased bandwidth, increased immunity to electromagnetic noise, decreased latency, and decreased power. Therefore, defining new architectures taking advantage of optical interconnects represents today a key issue for MPSoC designers. Moreover, new design methodologies, considering the design constraints specific to these architectures are mandatory. In this paper, we present a contention-free new architecture based on optical network on chip, called Optical Ring Network-on-Chip (ORNoC). We also show that our network scales well with both large 2D and 3D architectures. For the efficient design, we propose automatic wavelength-/waveguide assignment and demonstrate that the proposed architecture is capable of connecting 1296 nodes with only 102 waveguides and 64 wavelengths per waveguide.

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Design, simulation, and characterization of a passive optical add-drop filter in silicon-on-insulator technology

Cited by 27 publications

References 7 publications

Linear and Nonlinear Nanophotonic Devices Based on Silicon-on-Insulator Wire Waveguides

Linear and Nonlinear Nanophotonic Devices Based on Silicon-on-Insulator Wire Waveguides

Synthesis of highly integrated optical network based on microdisk-resonator add-drop filters in silicon-on-insulator technology

Optical Ring Network-on-Chip (ORNoC): Architecture and design methodology

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