High-Speed Holographic Data Storage at 500 Gbits/in.2
Metadata
- Publisher
- SMPTE — White Plains, NY, USA
- Doc Type
- Journal Article
- Content Type
- Original Research
- Abbreviated Title
- SMPTE Mot. Imag. J
- Volume
- 115, No. 5-6, pp. 200–203
- Abstract
- A holographic system is presented, along with experimental results that demonstrate data densities of 500 Gbits/in.2 with a write user rate of 23 Mbytes/sec and a read user rate of 13 Mbytes/sec.
- Publication Date
- 2006-05-01
- DOI
10.5594/J12231- ISSN
- Print:
1545-0279| Electronic:2160-2492 - Link
- https://doi.org/10.5594/J12231
- Author(s)
- Ken Anderson
bio
Ken Anderson is a holographic research scientist and currently leads the holographic research group at InPhase Technologies, which is responsible for developing the holographic architecture and demonstrating ultrahigh optical bit densities using holographic techniques. Anderson received a PhD in spatial-temporal holographic optical signal processing from the University of Colorado at Boulder. His interests include holographic storage, space-time holography, holographic optical elements, and optical signal processing.Edeline Fotheringhambio
Edeline Fotheringham currently works as a holographic research engineer at InPhase Technologies where she explores techniques to achieve high holographic data storage densities by optimizing both optical systems and recording media formulations. Fotheringham received a PhD degree in electrical engineering from the University of Colorado in 2003. Her thesis studied dynamic holographic processing of microwave signals with photorefractive crystals.Adrian Hillbio
Adrian Hill leads the software and data channel research at InPhase Technologies. He has been working on holographic data storage for the past ten years; first at Bell Laboratories, and then as one of the founders of InPhase Technologies. He received a PhD in electrical engineering from the University of Natal, Durban, South Africa, for research on compound semiconductor device modeling. His current research interests include read channel development, numerical methods, and algorithms.Bradley Sissombio
Brad Sissom has developed optical products for 18 years since receiving his MSME from Purdue University in 1988. Interdisciplinary, prototype-driven efforts have always attracted Sissom's interest. Holographic data storage presents some of the most challenging and relevant engineering opportunities that he has seen during his career.Kevin Curtisbio
Kevin Curtis is chief technology officer and founder of InPhase Technologies. Prior to founding InPhase, Curtis was a member of the technical staff at Bell Laboratories where he directed the efforts of the holographic storage program upon which InPhase was founded. He has worked at Caltech, Northrop, and Bell Labs on holographic optical systems for over 16 years. Curtis received BS, MS, and PhD degrees in electrical engineering in 1990, 1992, and 1994, respectively, all from the California Institute of Technology in Pasadena, CA. He has authored more than 50 publications and has 49 US patents awarded on holographic storage and optical information processing. - Copyright
- © 2006 Society of Motion Picture and Television Engineers, Inc.
Bibliographic Reference(s)
- 1. Tanabe Norihiro , “Experimental Research on Hologram Number Criterion for Evaluation Bit Error Rates of Shift Multiplexed Holograms,” ISOM Conference, Jeju Island, Korea, Paper Th-PP-05, Oct. 14, 2004 . EXTERNAL
- 2. Anderson K. Curtis K. , “Polytopic Multiplexing,” Optics Letters , 29 ( 12 ), June 15, 2004 . EXTERNAL
- 3. Curtis K. , “High-Density Holographic Storage,” ISOM Conference, Jeju Island, Korea, Paper Tu-D-01, Oct. 14, 2004 . EXTERNAL
- 4. “Process for Holography Involving Skip-sorted Hologram Storage,” US Patent 6,614,566. EXTERNAL
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Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; High-Speed Holographic Data Storage at 500 Gbits/in.2, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J12231
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Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; High-Speed Holographic Data Storage at 500 Gbits/in.2, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J12231
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Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; High-Speed Holographic Data Storage at 500 Gbits/in.2, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J12231
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<span class="citation">Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; <cite>High-Speed Holographic Data Storage at 500 Gbits/in.2</cite>, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006. Available at <a href="https://doi.org/10.5594/J12231" target="_blank" rel="noopener">https://doi.org/10.5594/J12231</a></span>
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Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; High-Speed Holographic Data Storage at 500 Gbits/in.2, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006
doi: 10.5594/J12231
url: https://doi.org/10.5594/J12231
doi: 10.5594/J12231
url: https://doi.org/10.5594/J12231
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<li> Ken Anderson, Edeline Fotheringham, Adrian Hill, Bradley Sissom, and Kevin Curtis; <cite id="bib-10-5594-j12231">High-Speed Holographic Data Storage at 500 Gbits/in.2</cite>, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 5-6, 2006); SMPTE, 2006 <span class="doi">10.5594/J12231</span> </li>