Monolithically Integrated Nonlinear Sagnac Interferometer and its Application as a 20 Gbit/s All-Optical Demultiplexer

Autor: E. Jahn, N. Agrawal, C.M. Weinert, H. J. Ehrke, W. Pieper, W. Furst, D. Franke
Přispěvatelé: Publica
Rok vydání: 1996
Předmět:
monolithically integrated device
Demultiplexer
semiconductor lasers
3 db coupler
5 to 20 Gbit/s
optical waveguides
Waveguide (optics)
Multiplexing
otdm networks
law.invention
Semiconductor laser theory
optical fibre communication
nonlinear sagnac interferometer
All optical
Optics
optical couplers
Gigabit
law
digital communication
Electrical and Electronic Engineering
demultiplexing equipment
optical tdm
integrated optoelectronics
Physics
light interferometers
Semiconductor laser amplifier
business.industry
Cross-phase modulation
Photonic integrated circuit
nonlinear optics
Michelson interferometer
mirrors
all-optical demultiplexer
waveguide loop mirror
Differential phase
photonic switching systems
Nonlinear system
Interferometry
semiconductor laser amplifier
integrated optics
Modulation
photonic ic
Optoelectronics
laser beam applications
oeic
business
Zdroj: Integrated Photonics Research.
DOI: 10.1364/ipr.1996.itug3
Popis: All-optical switching devices are expected to play an important role in future optical time-division multiplexing (OTDM) networks. Interferometer arrangements consisting of one or two semiconductor laser amplifiers (SLA) are very attractive for this purpose. Here, the cross-phase modulation due to the gain-saturation nonlinearity of SLAs provides the differential phase shift required for interferometric switching. The first of such devices was configured as a Sagnac interferometer by using an SLA in a fiber loop mirror (SLALOM) [1], Subsequently, SLALOM devices were used as demulitiplexers in high bit rate OTDM experiments [2-5], So far, these devices have been assembled using discrete SLA components. Other interferometer arrangements like Mach-Zehnder interferometer (MZI) or Michelson interferometer with SLAs provide additional flexibility but require their realization as integrated devices for stable operation. Recently, we developed an integrated MZI device and demonstrated its use in 40 Gbit/s to 5 Gbit/s demultiplexing and add/drop multiplexing experiments [6-7], In this paper, we report the first monolithically integrated nonlinear Sagnac interferometer (NSI) and its application as a 20 Gbit/s all-optical demultiplexer. Such a demultiplexer requires only half the number of SLAs and 3-dB couplers as compared to the MZI devices.
Databáze: OpenAIRE
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