[Paper] Spatial Filter and Combination of Angle and Peristrophic Multiplexings to Achieve Recording Density of 1 Tbit/inch2 in Holographic Data Storage

• Published in: ITE TRANSACTIONS ON MEDIA TECHNOLOGY AND APPLICATIONS Vol. 9; no. 3; pp. 153 - 160
• Main Authors: Katano, Yutaro, Muroi, Tetsuhiko, Kinoshita, Nobuhiro, Ishii, Norihiko
• Format: Journal Article
• Language: English
• Published: The Institute of Image Information and Television Engineers 2021
• Subjects: high density data recording; holographic data storage; multiplexing; spatial filter
• ISSN: 2186-7364; 2186-7364
• DOI: 10.3169/mta.9.153

We investigated the use of a spatial filter and a combination of multiplexing methods to obtain a data recording density of 1 Tbit/inch2. A small aperture diameter of the spatial filter can increase recording density, but the signal-to-noise ratio of the reproduced data decreases. We then investigated the minimum size of the aperture diameter under the condition where the data could be decoded. As a result, we found that the aperture diameter could be decreased to 1.2 times as large as the Nyquist width of a data page. To obtain a recording density of 1 Tbit/inch2, 800-data-page multiplexing was needed. We then investigated the recording conditions of angle and peristrophic multiplexings. When we recorded and reproduced data pages with 200 angle multiplexings and 4 peristrophic multiplexings, the bit error rates of the data were less than the permissive error rate, and a recording density of 1 Tbit/inch2 could be obtained.