Optical implementation method of perfect shuffle transformation

YANG Jun-bo; SU Xian-yu; XU Ping

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Optical implementation method of perfect shuffle transformation

更新时间：2020-08-12

- Optical implementation method of perfect shuffle transformation
- Optics and Precision Engineering Vol. 15, Issue 4, Pages: 505-511(2007)
- 作者机构：
  
  1. 四川大学电子信息学院光电科学技术系,四川成都 610064
  2. 深圳大学工程技术学院,广东深圳 518060
- 作者简介：
- 基金信息：
- DOI：
  CLC： TP393.03
- Received：02 March 2006，
  
  Revised：17 May 2006，
  
  Published Online：30 April 2007，
  
  Published：30 April 2007
- 稿件说明：
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YANG Jun-bo, SU Xian-yu, XU Ping. Optical implementation method of perfect shuffle transformation[J]. Optics and precision engineering, 2007, 15(4): 505-511.
DOI：

YANG Jun-bo, SU Xian-yu, XU Ping. Optical implementation method of perfect shuffle transformation[J]. Optics and precision engineering, 2007, 15(4): 505-511. DOI：

摘要

在有关文献对全混洗讨论的基础上

补充、完善了左逆混洗、右混洗和右逆混洗的研究。针对目前已经采用的实现左混洗变换方法的不足

提出了利用微光学衍射元件(微闪耀光栅阵列)实现全混洗变换的方法。通过对微闪耀光栅阵列周期参数的确定

可以控制信号光在空间闪耀输出的方向和闪耀角的大小。利用反应性离子刻蚀技术制得了1×8的微闪耀光栅阵列

成功地实现左混洗变换

该方法同样可以实现左逆混洗、右混洗和右逆混洗变换。实验结果表明

与其它实现方式相比

该方法具有器件尺寸小、衍射效率高(理论上衍射效率可达到95％左右)、光路简便易行、易微型化和集成化等特点

能够用于多级互连构建全混洗光互连网络。

Abstract

In order to use optical methods and optical elements to implement perfect shuffle

a perfect shuffle transformation method using micro-blazed grating array was proposed. The left inverse perfect shuffle

right perfect shuffle and the right inverse perfect shuffle are discussed complementally based on some reports on left perfect shuffle in previous papers. According to the different grating period values

a 1×8 micro-blazed grating array element for realizing 8-channel left perfect shuffle transformation is fabricated with Very Large Scale Integration (VLSI)

stepping photolithography and Reactive Ion Etching (RIE). Similarly

depending on the micro-blazed grating array with different period values

the left inverse perfect shuffle

right perfect shuffle and the right inverse perfect shuffle transformation also can be accomplished. Experimental results show obviously that

comparing with conventional methods

it has advantages of small size

compact structure

easy to integrate

high diffraction efficiency (95% or so in principle)

and high performance. Thus

it should be helpful in constructing multistage perfect shuffle interconnection network.

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Related Institution

Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences

University of Science and Technology of China

State Key Laboratory of Pulsed Power Laser Technology, Electronic Engineering Institute

School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology

Shanghai Key Laboratory of Modern Optical System, Optical Instrument and Systems Engineering Centre of the Ministry of Education

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