Hostname: page-component-8448b6f56d-c47g7 Total loading time: 0 Render date: 2024-04-19T15:09:33.641Z Has data issue: false hasContentIssue false
  • English
  • Français

High-Performance Polymer Recording Materials for Holographic Data Storage

Published online by Cambridge University Press:  31 January 2011

Lisa Dhar
Get access

Abstract

Holographic storage is considered a promising successor to currently available optical storage technologies. Enabling significant gains in both data transfer rates and storage densities, holographic storage and its capabilities have gained a great deal of recent attention.One of the primary challenges in the advancement of holographic storage has been the development of suitable recording materials.In this article, we provide a brief introduction to holographic storage and its potential advantages over current technologies, outline the requirements for recording materials, and survey candidate materials.We end by highlighting recent progress in photopolymer materials that has produced materials that satisfy the requirements for holographic storage and have enabled significant demonstrations of the viability of this technology.

Keywords

memoryopticalpolymer.
Type
Research Article
Information
MRS Bulletin , Volume 31 , Issue 4: Materials for Optical Data , April 2006 , pp. 324 - 328
Copyright
Copyright © Materials Research Society 2006

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1Coufal, H.Psaltis, D. and Sincerbox, G. eds., Holographic Data Storage (Springer-Verlag, Berlin, 2000).CrossRefGoogle Scholar
2Hariharan, P.C.Optical Holography (Cambridge University Press, Cambridge, UK, 1996).CrossRefGoogle Scholar
3Kogelnik, H.Bell System Tech. J. 48 (1969) p.2909.CrossRefGoogle Scholar
4Sincerbox, G.T.Proc. SPIE 2866 (1996) p.130.CrossRefGoogle Scholar
5Buse, K.Adibi, A. and Psaltis, D.Nature 393 (1998) p.665.CrossRefGoogle Scholar
6Moerner, W.E.Grunnet-Jepsen, A., and Thompson, C.L., Annu. Rev. Mater. Sci. 27 (1997) p.585.CrossRefGoogle Scholar
7Eickmans, J.Bieringer, T.Kostromine, S.Berneth, H., and Thoma, R.Jpn. J. Appl. Phys. 38 (3B) (1999) p.1835.CrossRefGoogle Scholar
8Dubois, M.Shi, X.Erben, C.Lawrence, B.Boden, E., and Longley, K.Proc. Int. Symp. Optical Memory and Optical Data Storage, MB 2 (2005).Google Scholar
9Tomlinson, W.J.Chandross, E.A.Weber, H.P. and Aumiller, G.D.Appl. Opt. 15 (1976) p. 95; B.M. Monroe W.K. Smothers D.E. Keys R.R. Krebs D.J. Mickish A.F. Harrington S.R. Schicker M.K. Armstrong D.M.T. Chan and C.I. Weathers J. Imag. Sci. 35 (1991) p. 19; B.M. Monroe J.Imag. Sci. 35 (1991) p.25; R.T. Ingwall and H.L. Fielding Proc. SPIE 523 (1985) p. 306.Google Scholar
10Waldman, D.A.Li, H.Y.S., and Horner, M.G.J. Imag. Sci. 41 (1997) p.497.CrossRefGoogle Scholar
11Dhar, L.Hale, A.Katz, H.Schilling, M.Schnoes, M. and Schilling, F.Opt. Lett. 24 (1999) p.487.CrossRefGoogle Scholar
12Shelby, R.Waldman, D. and Ingwall, R.Opt. Lett. 25 (2000) p. 713; L. Dhar K. Curtis M. Tackitt M. Schilling S. Campbell W. Wilson A. Hill, C. Boyd N. Levinos and A. Harris Opt. Lett. 23 (1998) p. 1710.CrossRefGoogle Scholar
13Aprilis Co. Imager Products Home Page, www.aprilisinc.com/biometrics_imager.htm (accessed March 2005).Google Scholar
14Wang, P.Ihas, B.Schnoes, M.Quirin, S.Beal, D.Setthachayanon, S.Trentler, T.Cole, M.Askham, F.Michaels, D.Miller, S.Hill, A.Wilson, W. and Dhar, L.Proc. SPIE 5380 (2004) p.283; M.C. Cole D. Samuels H. Barnes L. Dhar T. Hanyu and T. Morimoto Proc. Int. Symp. Optical Memory and Optical Data Storage, MB 5 (2005).CrossRefGoogle Scholar
15Fotheringham, E.Anderson, K.Hill, A.Sissom, B. and Curtis, K.Proc. Int. Symp. Optical Memory and Optical Data Storage, Th E2 (2005).Google Scholar
16Dhar, L.Schnoes, M.Wysocki, T.Bair, H.Schilling, M. and Boyd, C.. Appl. Phys. Lett. 73 (1998) p.1337.CrossRefGoogle Scholar
17Toishi, M.Tanaka, T.Sugiki, M. and Watanabe, K.Proc. Int. Symp. Optical Memory and Optical Data Storage, Th E5 (2005).Google Scholar
18“Turner Network Television, In Phase Technologies, and Hitachi Maxell Make History on First Play-Out-to-Air from Holographic System,” InPhase Technologies press release, www.inphase-tech.com/news/turneronair. html (accessed March 2005).Google Scholar
19Chuang, E.Yamatsu, H.Saito, K. and Kobayashi, S.Jpn. J.Appl. Phys. 42 (2003) p.976.CrossRefGoogle Scholar
20Mok, F.H.Burr, G.W. and Psaltis, D.Opt. Lett. 21 (1996) p. 896; A. Pu K. Curtis and D. Psaltis Opt. Eng. 35 (1996) p.2824.CrossRefGoogle Scholar