Design of Optical Logic Gates Using Self-collimated Beams in 2D Photonic Crystal 被引量：1

Design of Optical Logic Gates Using Self-collimated Beams in 2D Photonic Crystal

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摘要 Optical logic gates are elementary components for optical network and optical computing. In this paper, we propose a structure for AND, NAND, XNOR and NOR logic gates in the two dimensional photonic crystal which utilizes the dispersion based self-collimation effect. The self-collimated beam is splitted by the line defect and interfered with other self-collimated beam. This interference may be constructive or destructive based on their phase difference. This phenomenon is employed to realize all-optical logic gates. The gates are demonstrated numerically by computing electromagnetic field distribution using the finite difference time domain （FDTD） method. The results ensure that this design can function as AND, NAND, XNOR and NOR logic gates. The size of the structure is about 10 μm× 10 μm which in turn results in an increase in the speed and all the gates are realized in the same configuration. The ON-OFF contrast ratio is about 6 dB.

作者 X. Susan CHRISTINA A. R KABILAN

机构地区 Department of ECE Chettinad College of Engineering & Technology

出处《Photonic Sensors》 SCIE EI CAS 2012年第2期173-179,共7页 光子传感器（英文版）

关键词 Optical computing photonic crystal band diagram equifrequency contour all-optical logic gates 二维光子晶体光逻辑门准直光束设计时域有限差分 NAND 电磁场分布基本组件

分类号 TN201 [电子电信—物理电子学] TN929.11 [电子电信—通信与信息系统]

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Design of Optical Logic Gates Using Self-collimated Beams in 2D Photonic Crystal 被引量：1

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