DESIGN OF SYMMETRIC AND ASYMMETRIC 2×2 ALL OPTICAL Ti: LiNbO3 MACHZEHNDER INTERFEROMETRIC SWITCHES

Ghanshyam Singh, Rajendra P. Yadav, and Vijay Janyani

References

  1. [1] N. Agrawal, C.M. Weinert, H.-J. Ehrke, G.G. Mekonnen,D. Franke, C. Bornholdt, & R. Langenhorst, Fast 2 × 2Mach-Zehnder optical space switches using InGaAsP-InP multiquantum-well structures, IEEE Photonics Technology Letters,7 (6), 1995, 644–645.
  2. [2] H.Y. Wong, M. Sorel, A.C. Bryce, J.H. Marsh, & J.M.Arnold, Monolithically integrated InGaAs–AlGaInAs MZI op-tical switch using quantum-well intermixing, IEEE PhotonicsTechnology Letters, 17 (4), 2005, 783–785.
  3. [3] K. Suzuki, T. Yamada, M. Ishii, T. Shibata, & S. Mino,High-speed optical 1 × 4 switch based on generalized Mach-Zehnder interferometer with hybrid configuration of silica-basedPLC and lithium niobate phase-shifter array, IEEE PhotonicsTechnology Letters, 19 (9–12), 2007, 674–676.
  4. [4] K. Noguchi, Ultra-high-speed LiNbO3 modulators, Journal ofOptical and Fiber Communications Research, 4, 2007, 1–13.
  5. [5] A.M. Prokhoroy & S. Yu, Physics and chemistry of crystallinelithium niobate Transl. from Russian by T.M. Pyankova &O.A. Zilbert (Bristol, UK: New Rok, Hilger, 1990).
  6. [6] S. Kim, H. Jung, & H. Lee, 2 × 2 Ti: LiNbO3 waveguide digitaloptical switches, Journal of the Optical Society of Korea, 7 (4),2003, 253–257.
  7. [7] W.-Y. Hwang, M.-C. Oh, H.-M. Lee, H. Park, & J.-J. Kim,Polymeric 2 × 2 electrooptic switch consisting of asymmetric Yjunctions and Mach–Zehnder interferometer, IEEE PhotonicsTechnology Letters, 9 (6), 1997, 761–763.
  8. [8] G.I. Papadimitriou, C. Papazoglou, & A.S. Pomportsis, Op-tical switching: Switch fabrics, techniques and architectures,Journal of Lightwave Technology, 21 (2), 2003, 384–405.
  9. [9] C.-T. Zheng, C.-S. Ma, X. Yan, X.-Y. Wang, & D.-M. Zhang,Design and analysis of a polymer MZI electro-optic switch overa wide spectrum of 110 nm, Optical Engineering, 48, 2009,054601.
  10. [10] OptiBPM, Technical background and tutorials, Waveguide op-tics modelling software system, version 8.0, Second Edition(Optiwave Inc., Canada, 2006).
  11. [11] K.K.Wong, Properties of lithium niobate, EMIS data reviewsseries, The Institution of Electrical Engineers, 28, ISBN-10:0852967993 (London, U.K.: INSPEC publication, 2002).
  12. [12] E.L. Wooten, K.M. Kissa, A.Y. Yan, E.J. Murphy, D.A. Lafaw,P.F. Hallemeier, D. Maack, D.V. Attanasio, D.J. Fritz, G.J.McBrien, & D.E. Bossi, A review of lithium niobate modula-tors for fiber-optic communications systems, IEEE Journal ofSelected Topics in Quantum Electronics, 6 (1), 2000, 69–82.

Important Links:

Go Back