Orthogonal polarization simultaneous readout for volume holograms with hybrid angle and polarization multiplexing in LiNbO3

Wei Chia Su, Chung Ming Chen, Yueh Ouyang

研究成果: Article

8 引文 (Scopus)

摘要

The orthogonal polarization simultaneous readout technique in a hybrid-multiplexed memory using angular multiplexing and polarization multiplexing is presented. Twenty holograms were hybrid multiplexed in a single LiNbO3 crystal with ten angular positions for angular multiplexing. In each angular position of the holographic memory, two images with orthogonal polarization are multiplexed in the same spatial location inside the LiNbO 3 via polarization multiplexing. These two orthogonally polarized images can be reconstructed simultaneously with a linear polarization reading beam, but they can be separated with a polarization beam splitter, and accordingly each can be viewed independently. The exposure schedule for holographic storage using the proposed hybrid-multiplexing technique is derived.

原文English
頁(從 - 到)3233-3238
頁數6
期刊Applied Optics
46
發行號16
DOIs
出版狀態Published - 2007 六月 1

指紋

Holograms
multiplexing
Multiplexing
readout
Polarization
polarization
Data storage equipment
beam splitters
schedules
linear polarization
Single crystals
single crystals

All Science Journal Classification (ASJC) codes

  • Atomic and Molecular Physics, and Optics
  • Engineering (miscellaneous)
  • Electrical and Electronic Engineering

引用此文

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Orthogonal polarization simultaneous readout for volume holograms with hybrid angle and polarization multiplexing in LiNbO3. / Su, Wei Chia; Chen, Chung Ming; Ouyang, Yueh.

於: Applied Optics, 卷 46, 編號 16, 01.06.2007, p. 3233-3238.

研究成果: Article

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AB - The orthogonal polarization simultaneous readout technique in a hybrid-multiplexed memory using angular multiplexing and polarization multiplexing is presented. Twenty holograms were hybrid multiplexed in a single LiNbO3 crystal with ten angular positions for angular multiplexing. In each angular position of the holographic memory, two images with orthogonal polarization are multiplexed in the same spatial location inside the LiNbO 3 via polarization multiplexing. These two orthogonally polarized images can be reconstructed simultaneously with a linear polarization reading beam, but they can be separated with a polarization beam splitter, and accordingly each can be viewed independently. The exposure schedule for holographic storage using the proposed hybrid-multiplexing technique is derived.

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