Back
 CS  Vol.1 No.2 , October 2010
New Communication Bands Generated by Using a Soliton Pulse within a Resonator System
Abstract: We propose a novel system of a broadband source generation using a common soliton pulse (i.e. with center wavelength at 1.55 ?m) propagating within a nonlinear microring and nanoring resonators system. A system consists of a micro ring resonator system incorporating an add/drop filter, whereas the large bandwidth signals can be generated, stored and regenerated within the system. By using the appropriate parameters relating to the practical device such as micro ring radii, coupling coefficients, linear and nonlinear refractive index, we found that the obtained multi soliton pulses have shown the potential of application for dense wavelength division application, whereas the different center wavelengths of the soliton bands can be obtained via the add/drop filter, which can be used to increase the channel capacity in communication network.
Cite this paper: nullP. Yupapin, M. Jalil, I. Amiri, I. Naim and J. Ali, "New Communication Bands Generated by Using a Soliton Pulse within a Resonator System," Circuits and Systems, Vol. 1 No. 2, 2010, pp. 71-75. doi: 10.4236/cs.2010.12012.
References

[1]   N. Pornsuwancharoen, U. Dunmeekaew and P. P. Yupapin, “Multi-Soliton Generation Using a Micro Ring Resonator System for DWDM Based Soliton Communication,” Microwave and Optical Technology Letters, Vol. 51, No. 5, 2009, pp. 1374-1377.

[2]   P. P. Yupapin, N. Pornsuwanchroen and S. Chaiyasoon- thorn, “Attosecond Pulse Generation Using Nonlinear Micro Ring Resonators,” Microwave and Optical Technology Letters, Vol. 50, No. 12, 2008, pp. 3108-3011.

[3]   N. Pornsuwancharoen and P. P. Yupapin, “Generalized Fast, Slow, Stop, and Store Light Optically within a Nano Ring Resonator,” Microwave and Optical Technology Letters, Vol. 51, No. 4, 2009, pp. 899-902.

[4]   N. Pornsuwancharoen, S. Chaiyasoonthorn and P. P. Yupapin, “Fast and Slow Lights Generation Using Chaotic Signals in the Nonlinear Micro Ring Resonators for Communication Security,” Optical Engineering, Vol. 48, No. 1, 2009, p. 50005-1-5.

[5]   P. P. Yupapin, P. Saeung and C. Li, “Characteristics of Complementary Ring-Resonator Add/Drop Filters Modeling by Using Graphical Approach,” Optics Communications, Vol. 272, No. 1, 2007, pp. 81-86.

[6]   M. Fujii, J. Leuthold and W. Freude, “Dispersion Relation and Loss of Subwavelength Confined Mode of Metal-Dielectri-Gap Optical Waveguides,” IEEE Photonics Technology Letters, Vol. 21, No. 6, 2009, pp. 362-364.

[7]   P. P. Yupapin and N. Pornsuwancharoen, “Proposed Nonlinear Micro Ring Resonator Arrangement for Stopping and Storing Light,” IEEE Photonics Technology Letters, Vol. 21, No. 6, 2009, pp. 404-406.

[8]   Y. Su, F. Liu and Q. Li, “System Performance of Slow- light Buffering and Storage in Silicon Nano-Waveguide,” Proceedings of SPIE, Vol. 6783, 2007, p. 67832. P. P. Yupapin and W. Suwancharoen, “Chaotic Signal Generation and Cancellation Using a Micro Ring Resonator Incorporating an Optical Add/Drop Multiplexer,” Optics Communications, Vol. 280, No. 2, 2007, pp. 343- 350.

 
 
Top