Compact InP-based waveguide crossings with low crosstalk and low loss

C. van Dam; F. P. G. M. van Ham; F. H. Groen; F. H. Groen; J. J. G. M. van der Tolt; J. J. G. M. van der Tolt; I. Moerman; I. Moerman; M. K. Smit

doi:10.1364/IPR.1996.IMH1

Integrated Photonics Research
1996 OSA Technical Digest Series (Optica Publishing Group, 1996),
paper IMH1
•https://doi.org/10.1364/IPR.1996.IMH1

Compact InP-based waveguide crossings with low crosstalk and low loss

C. van Dam, F. P. G. M. van Ham, F. H. Groen, J. J. G. M. van der Tolt, I. Moerman, and M. K. Smit

Integrated Photonics Research 1996

Boston, Massachusetts United States
ISBN: 1-55752-439-4

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C. van Dam, F. P. G. M. van Ham, F. H. Groen, J. J. G. M. van der Tolt, I. Moerman, and M. K. Smit, "Compact InP-based waveguide crossings with low crosstalk and low loss," in Integrated Photonics Research, Vol. 6 of 1996 OSA Technical Digest Series (Optica Publishing Group, 1996), paper IMH1.

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Abstract

Optical waveguide crossings are becoming increasingly important due to the increasing complexity of optical chips. In switching matrices [1], multiwavelength add drop filters [2] and optical crossconnects [3] worst-case paths may contain more than five or even ten crossings. In fibre-matched waveguides structures as used in lithium niobate or silica-based technology, crossings with very low crosstalk and loss can be realised [4,5]. We have found that in highly integrated semiconductor devices crossings may contribute significantly to the loss and crosstalk performance. In this paper we present the results of a series of experiments for design of high-performance semiconductor waveguide crossings.

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