Analytical Study of Optical Bi-Stability of a Single-Bus Resonator Based on InGaAs Micro-Ring Array
Subject Areas : journal of Artificial Intelligence in Electrical Engineering
Keywords: Hysteresis Loop, Optical Bi-stability, Nonlinear Optic, Ring Resonator Array, Resonance Wavelength,
Abstract :
In this paper, for the first time to our knowledge, we investigate the optical bi-stability in a compact parallel array of micro- ring resonators with 5μm radius, induced by optical nonlinearity. Due to the nature of perfect light confinement, resonance and accumulation process in a ring resonator, optical nonlinear effects, even at small optical power of a few milliwatts in this structure are observable. Different optical applications such as: all-optical switching, memory, logic gates and modulators, due to optical bi-stability in a ring resonator are possible. By using of compound semiconductors, instead of silicon that have weakly nonlinear optical properties, we improve the performance of ring-resonator based devices. Also by using of a polymer cladding layer with negative thermo-optic coefficient, we have eliminate the temperature created nonlinearity which is a very slow process, so the switching speed of a few MHz increases to several tens of GHz. With plotting the transfer function of the resonator, a hysteresis loop in a few milliwatts is observed, that by using of ring resonator array, although the bandwidth is reduced, but the width of the hysteresis loop and resolution between both steady state increases.
[1] E.Klein, D.H. Geuzebroek, H. Kelderman,” Wavelength-Selective Switch using Thermally Tunable Microring Resonators”, Lasers and Electro-Optics Society, 2003. LEOS 2003. The 16th Annual Meeting of the IEEE,vol.1,pp. 126 – 127,2003.
[2] X.Wang,” A Thermally Wavelength Tunable Photonic Switch Based on Silicon Microring Resonator”,Dissertation For Phd,Miami,florida,USA,2009.
[3] S. D. Smith, “Optical bistability, photonic logic, and optical computation “ , App. Op., Vol. 25, No. 10 ,pp.1550-1564 , 1986.
[4] R.W.Boyd,“ Nonlinear Optics (3rd Edition)”, Academic Press Inc,2007.
[5] V. Almeidaet al., “Optical bistability on a silicon chip,”Opt. Lett., vol. 29,no. 20, pp. 2387–2389, 2004.
[6] M. Notomiet al., “Optical bistable switching action of si high-q photonic-crystal nanocavities,”Opt. Expr., vol. 13, no. 7, pp. 2678–2687, 2005.
[7] W. Bogaerts et al., “Nanophotonic waveguides in silicon-on-insulator fabricated with cmos technology,” J. Lightwave Technol., vol. 23, no. 1, pp. 401–412, January 2005.
[8] G. Priem, P. Dumon, W Bogaerts, D. Van Thourhout, G. Morthier, and R. Baets, "Optical bistability and pulsating behaviour in Silicon-On-Insulator ring resonator structures," Opt. Express , Vol.13, pp.9623-9628 , 2005.
[9] JingLu, GangZhou, “Analysis on Wavelength Bistability Properties of Vertical Cavity Semiconductor Optical Amplifier” Quality, Reliability, Risk, Maintenance, and Safety Engineering (ICQR2MSE), 2011 International Conference on Xi'an , pp. 975 – 978 , 17-19 June 2011.
[10] MH.Mohammadzadeh,”Design and Analysis of Ring resonator array Based Photo detector with nonlinear effect in the Communication Wavelength Range”,Dissertation for MSc,IAUN,Iran,2013.
[11] A.Yariv, “Universal Relations For Coupling of Optical Power Between Micro Resonators and Dielectric WaveGuides”,Electron.Lett.,vol.36,pp.321-322,Feb.2000.
[12] T.Ibrahim,V.Van,K.Ritter,” Fast nonlinear all-optical switching in a compact semiconductor microring resonator”, Lasers and Electro-Optics Society, 2001. LEOS 2001. The 14th Annual Meeting of the IEEE,vol.2,pp. 519 – 520,2001.
[13] J. E. Heebner and R. W. Boyd, “Enhanced all-optical switching by use of a nonlinear fiber ring
resonator,”Opt. Lett., vol. 24, pp. 847–849, June 1999.