High performance Digital Optical Switch

Authors

  • Ghanshyam Singh Malaviya National Institute of Technology Jaipur
  • S. Gupta
  • P. Jain
  • S. Bothra
  • V. Janyani
  • R.P. Yadav

DOI:

https://doi.org/10.4302/photon.%20lett.%20pl.v3i1.191

Abstract

In this work, we present a high performance Y-shaped digital optical switch (DOS) which complies with the DOS reported earlier using Titanium in-diffused or proton exchanged Lithium Niobate waveguiding structures. The optimization of switching characteristics is performed for switching voltage and device size. This structure has a total length of 5.5mm and a width of 20.6um. For the first time, the driving voltage as low as 1V has been achieved with acceptable crosstalk levels (in the range of -22dB to -28dB) for communication applications. Using a beam propagation method (BPM), we demonstrate that the switch is polarization independent and suitable for low attenuation optical window (1300nm and 1550nm) operation as well.  

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References:
  1. R. Hauffe, U. Siebel, J. Bruns, K. Peterman, "Digital Optical Circuit Switches and Switching Matrices in Polymers", Int. J. Electron. Commun. 55(5), 305 (2001). [CrossRef]
  2. M. Iodice, G. Mazzi, L. Sirleto, "Thermo-optical static and dynamic analysis of a digital optical switch based on amorphous silicon waveguide", Opt. Exp. 14(12), 5266 (2006). [CrossRef]
  3. L. Sirleto, M. Iodice, F.G. Della Corte, I. Rendina, "Digital optical switch based on amorphous silicon waveguide", Opt. Lasers Eng. 45, 458 (2007). [CrossRef]
  4. P.J. Duthie, M.J. Wale, "16×16 single chip optical switch array in Lithium Niobate", Electron. Lett. 27(14), 1265 (1997). [CrossRef]
  5. H. Okkayama, M. Kawahara, "Ti:LiNbO3 digital optical switch matrices", Electron. Lett. 29(9), 765 (1993). [CrossRef]
  6. S.J. Kim, H.S. Jung, H.Y. Lee, Jour. Opt. Soc. Korea 7(4), 253 (2003).
  7. R. Krähenbühl, M.M. Howerton, J. Dubinger, "Performance and modeling of advanced Ti:LiNbO3 digital optical switches", A.S. Greenblatt Jour. Lightwave Tech. 20(1), 92 (2002). [CrossRef]
  8. M.N. Kahn, B.I. Miller, E.C. Burrows, C.A. Burrus, "Crosstalk-, loss-, and length-reduced digital optical Y-branch switches using a double-etch waveguide structure", IEEE Photon. Technol. Lett. 11, 1250 (1999). [CrossRef]
  9. M.K. Pandit, H.P. Chan, K.S. Chiang, S. Ghosh, A.K. Das, "A digital optical switch (DOS) in polymer using truncated-structural X-branches (TSXB)", Microwave Opt. Techn. Lett. 27(4), 229 (2000). [CrossRef]
  10. R. Krähenbühl, W.K. Burns, OSA Photon. Switching 32, 160 (1999).
  11. G. Singh, R.P Yadav, V. Janyani, "Design and Analysis of Ti: LiNbO3 1x2 Digital Optical Switch with Optimized Electrode Regions", Jour. Opt. Commun. 31(2), 78 (2010). [CrossRef]
  12. Beam Prop 5.1.1, R-Soft Design Group, Inc., Physical Layer Division, 200 Executive Blvd., Ossining, NY 10562.

Author Biography

Ghanshyam Singh, Malaviya National Institute of Technology Jaipur

Ghanshyam Singh
Assistant Professor
Dept. of Electronics & Communication
Malaviya National Institute of Technology
J.L.N Road, Jaipur-302017
(Rajasthan)-India


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Published

2011-03-31

How to Cite

[1]
G. Singh, S. Gupta, P. Jain, S. Bothra, V. Janyani, and R. Yadav, “High performance Digital Optical Switch”, Photonics Lett. Pol., vol. 3, no. 1, pp. pp. 38–40, Mar. 2011.

Issue

Vol. 3 No. 1 (2011)

Section

Articles

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