Pattern Dependence of Data Distortion in Slow-Light Elements
- 9 July 2007
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in Journal of Lightwave Technology
- Vol. 25 (7) , 1754-1760
- https://doi.org/10.1109/jlt.2007.899166
Abstract
Slow light has been proposed as a potential solution to all-optically tunable delay line. However, a slow-light element may degrade data quality in an optical communication system while decreasing group velocity of optical pulses. In this paper, pattern dependence of signal distortion is identified as a main reason for data degradation, which is caused by narrow-band amplitude and phase responses of the slow-light elements. We define figure of merit involving pulse delay and data degradation to optimize slow-light devices. It is shown that the pattern dependence can be reduced by detuning slow-light devices away from the signal carrier frequency, which allows using narrow-band slow-light techniques to increase normalized delay up to 0.8, with Q improvement of 2 dB.Keywords
This publication has 46 references indexed in Scilit:
- Power dissipation in slow light devices: a comparative analysisOptics Letters, 2006
- Slow and Fast Light in Semiconductor Quantum-Well and Quantum-Dot DevicesJournal of Lightwave Technology, 2006
- Dispersionless slow light using gap solitonsNature Physics, 2006
- Experimental Realization of an On-Chip All-Optical Analogue to Electromagnetically Induced TransparencyPhysical Review Letters, 2006
- Experimental demonstration of all-optical tunable delay line based on distortion-less slow and fast light using soliton collision in optical fiber.Optics Express, 2006
- Slow-light optical buffers: capabilities and fundamental limitationsJournal of Lightwave Technology, 2005
- Optical buffers based on slow light in electromagnetically induced transparent media and coupled resonator structures: comparative analysisJournal of the Optical Society of America B, 2005
- Maximum time delay achievable on propagation through a slow-light mediumPhysical Review A, 2005
- On the dynamic range of optical delay lines based on coherent atomic mediaOptics Express, 2005
- Distortionless light pulse delay in quantum-well Bragg structuresOptics Letters, 2005