Material consumption and crosstalk characteristics of different holographic storage concepts

Przygodda, Frank, Knittel, Joachim, Malki, Oliver, Trautner, Heiko and Richter, Hartmut (2009). Material consumption and crosstalk characteristics of different holographic storage concepts. In: Osamu Matoba and Mitsuru Toishi, Special Issue: Optical Memories. 6th Joint International Symposium on Optical Memory and Optical Data Storage 2008 (ISOM/ODS 2008), Big Island, HI, United States, (). 13-17 July 2008. doi:10.1143/JJAP.48.03A024


Author Przygodda, Frank
Knittel, Joachim
Malki, Oliver
Trautner, Heiko
Richter, Hartmut
Title of paper Material consumption and crosstalk characteristics of different holographic storage concepts
Conference name 6th Joint International Symposium on Optical Memory and Optical Data Storage 2008 (ISOM/ODS 2008)
Conference location Big Island, HI, United States
Conference dates 13-17 July 2008
Proceedings title Special Issue: Optical Memories   Check publisher's open access policy
Journal name Japanese Journal of Applied Physics   Check publisher's open access policy
Place of Publication Tokyo, Japan
Publisher Institute of Pure and Applied Physics
Publication Year 2009
Sub-type Fully published paper
DOI 10.1143/JJAP.48.03A024
ISSN 0021-4922
1347-4065
Editor Osamu Matoba
Mitsuru Toishi
Volume 48
Issue 3, Part 2
Total pages 4
Language eng
Abstract/Summary Holographic data storage is considered to be one of the most promising technologies for high-capacity data storage. Several holographic concepts have been suggested and investigated in detail by many companies. The concepts differ in the method of superposing object and reference beams inside the holographic medium. At present, the most relevant concepts are the plane wave concept, the collinear concept, and a concept with counterpropagating beams. We compare all three concepts, with regard to their beam overlap, efficiency of material consumption, diffraction efficiency, and crosstalk characteristics. The investigation is performed by numerical simulations, which offer well-defined conditions in all setups and are independent of experimental uncertainties such as the nonlinear behavior of medium sensitivity and the effects of light scattering or reflection.
Q-Index Code C1
Q-Index Status Provisional Code
Institutional Status Non-UQ
Additional Notes 18th ISOM and the 24st ODS. Article # 03A024.

Document type: Conference Paper
Collections: School of Mathematics and Physics
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