Large arrays of symmetric self electro-optic effect devices

L. M. F. Chirovsky; M. W. Focht; J. M. Freund; G. D. Guth; R. E. Leibenguth; G. J. Przybylek; L. E. Smith; L. A. D’Asaro; A. L. Lentine; R. A. Novotny; D. B. Buchholz

doi:10.1364/PHS.1991.ThB3

Photonic Switching
Technical Digest Series (Optica Publishing Group, 1991),
paper ThB3
•https://doi.org/10.1364/PHS.1991.ThB3

Large arrays of symmetric self electro-optic effect devices

L. M. F. Chirovsky, M. W. Focht, J. M. Freund, G. D. Guth, R. E. Leibenguth, G. J. Przybylek, L. E. Smith, L. A. D’Asaro, A. L. Lentine, R. A. Novotny, and D. B. Buchholz

Photonic Switching 1991

Salt Lake City, Utah United States
6–8 March 1991
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L. M. F. Chirovsky, M. W. Focht, J. M. Freund, G. D. Guth, R. E. Leibenguth, G. J. Przybylek, L. E. Smith, L. A. D’Asaro, A. L. Lentine, R. A. Novotny, and D. B. Buchholz, "Large arrays of symmetric self electro-optic effect devices," in Photonic Switching, Technical Digest Series (Optica Publishing Group, 1991), paper ThB3.

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Abstract

For optical processing to become a reality, large arrays of optical processing gates are required with low energies and fast switching speeds. Arrays of symmetric self electro-optic effect devices (S-SEEDs) with as many as 2048 devices (64 x 32) have been made using batch fabrication procedures that process an entire wafer of devices at once [1,2]. In this paper we describe the extension of that work to arrays with 8192 devices (128 x 64) and 32768 elements (256 x 128). We also demonstrate 8 x 16 arrays of symmetric SEED modulators [3] with individual electrical access to the devices. The performance and uniformity of the arrays are more than acceptable to continue systems experiments with these types of devices.

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